| teamid | teamname | synopsis | category |
| 7 | Ariyan | | engineering |
| 8 | Ariyan | | engineering |
| 9 | Tushar Goyal | | physics |
| 10 | ADCON GROUP | AS BEING A STUDENT OF ARTS I FEEL THAT IT SHOULD BE ENABLED WITH EASY ACCESS TO EVERYBODY.I WANT TO DESIGN A SHORT TECH FOR EVEN THE ILLETERATE TO USE THE ADVANTAGE OF IT,..FROM CELL PHONES TO PCs. | computerscience |
| 11 | IUGR fetus in pregnency | fdgadgf | zoology |
| 12 | vfv | | computerscience |
| 13 | CYBERSPARKS |
SYNOPSIS
CRIME DIARY is the software that functions all over India. It creates hubs on all metropolitan cities of each state namely Bangalore, Chennai, Mumbai and its main hub at Delhi. The project aims at serving the society by providing uptodate information about anti-social elements. These help in the process eradicating evil methods, processes and persons. It basically provides a single database for all anti-social elements, so that any one concerned can access the required information at any point of time in any part of the country. Another important aspect is that it provides security so that common man cannot have an access to it because the data must be kept confidential. With regard to manipulations there are basic operations like add, delete. Search option is also available, a user can search for his requirement on any of the basis, using any of attributes of a person. Searching can be done simultaneously by multiple users. Another important is the shift option. For example, if a particular criminal is registered under a state x and is required to move to y then there is no need to delete under x and add under y. Shift is option that can be used for such purpose,then if he is escaped then a different database is kept for such tuples which can be accessed directly and needed how to undergo a long process of searching. Modify is of course an option used to change some of the attrbutes of person.
This project if implement shall enrich the Departments of Police of different states and shall also fulfill our President Shri A.P.J. Abdul Kalam's dream of revolutionizing the police departments.
| computerscience |
| 14 | CYBERSPARKS | SYNOPSIS
CRIME DIARY is the software that functions all over India. It creates hubs on all metropolitan cities of each state namely Bangalore, Chennai, Mumbai and its main hub at Delhi. The project aims at serving the society by providing uptodate information about anti-social elements. These help in the process eradicating evil methods, processes and persons. It basically provides a single database for all anti-social elements, so that any one concerned can access the required information at any point of time in any part of the country. Another important aspect is that it provides security so that common man cannot have an access to it because the data must be kept confidential. With regard to manipulations there are basic operations like add, delete. Search option is also available, a user can search for his requirement on any of the basis, using any of attributes of a person. Searching can be done simultaneously by multiple users. Another important is the shift option. For example, if a particular criminal is registered under a state x and is required to move to y then there is no need to delete under x and add under y. Shift is option that can be used for such purpose,then if he is escaped then a different database is kept for such tuples which can be accessed directly and needed how to undergo a long process of searching. Modify is of course an option used to change some of the attrbutes of person.
This project if implement shall enrich the Departments of Police of different states and shall also fulfill our President Shri A.P.J. Abdul Kalam's dream of revolutionizing the police departments.
| computerscience |
| 15 | CYBERSPARKS | SYNOPSIS
CRIME DIARY is the software that functions all over India. It creates hubs on all metropolitan cities of each state namely Bangalore, Chennai, Mumbai and its main hub at Delhi. The project aims at serving the society by providing uptodate information about anti-social elements. These help in the process eradicating evil methods, processes and persons. It basically provides a single database for all anti-social elements, so that any one concerned can access the required information at any point of time in any part of the country. Another important aspect is that it provides security so that common man cannot have an access to it because the data must be kept confidential. With regard to manipulations there are basic operations like add, delete. Search option is also available, a user can search for his requirement on any of the basis, using any of attributes of a person. Searching can be done simultaneously by multiple users. Another important is the shift option. For example, if a particular criminal is registered under a state x and is required to move to y then there is no need to delete under x and add under y. Shift is option that can be used for such purpose,then if he is escaped then a different database is kept for such tuples which can be accessed directly and needed how to undergo a long process of searching. Modify is of course an option used to change some of the attrbutes of person.
This project if implement shall enrich the Departments of Police of different states and shall also fulfill our President Shri A.P.J. Abdul Kalam's dream of revolutionizing the police departments.
| computerscience |
| 16 | aimsjabed | | computerscience |
| 17 | Kuldeep_only | a) Purpose of the experiment :
Today many people sufferd from malaria dangu & other desease & on the other hand farmers are sufferd from destruction of their
crop by many insects. So we have to do something for all people human. For eg. my MAGIC FREQUENCY GENERATOR may use for
keep mosquito away from our home & also keep many harmful insect away from us therefore a poor farmer who can't afford the
pesticides & expensive chemical for keeping there crop insect like grasshopper ('Tiddi' in hindi).This is the real purpose of
experiment. therefore i want to make a frequency generator to give command the insect in their frequency. That way I give the
name to project is "MAGIC FREQUENCY GENERATOR)
b) Procedures used :
First of keep all insect for which I want to know the frequency perception in a glass cabinet. The cabinet so designed to pass air for
respiration of insects like mosquito, grasshopper etc. then the arrangement of sound frequency recever equipments are so arrange
to receve frequency of sound which are generated by the insects and note it in a table to know what kind of sound frequency they
generate on different occasion. then give commnd by our frequency generator in same frequency and observe the action taken by
them. repete the same till we cand predicate on what frequency the particular insects are dooing particular action. In other word we
just know the language of the insects for given command them. This kind of experiment are repete for different insects and make a
sound perception table for each & every action of different different insects.
d) Data :
Datas are collect in the form of observation table to know what action are done by what sound frequency. we collect it for different
different insects.
d) Conclusions :
The conclusion of the "MAGIC FREQUENCY GENERATOR" project is to give relaxe to human being to protect themselves from many desease eg. Malaria, dangu etc.which are spreed by insects. Although there are many insectiside to kill the insect but they are not safe for us. They cause many problems for soil, human & other animal also there for we eleminate the need of insectiside and save the crop of the poor farmer's farm from attact of insects lke grasshopper etc.
| computerscience |
| 18 | weirdos | aljflkdsjl ds
ljlkajsdlkfja
lkjlakjlkfsd
lkjlakfdjs | mathematics |
| 19 | Muon | | |
| 20 | varuni | Project Title: Earthquake alarm
Name of participant: Varuni Saxena
Subject Category: Engineering
Synopsis
Earthquakes are one of the most catastrophic disasters faced by people. Currently it is not possible to predict them. Earthquakes can happen anytime, anywhere. However, more lives are lost when they occur during the night when most people are asleep.
An alarm which can wake people up can be most effective if it is installed in the house.
The device that can be used for this purpose is a semi-circular metal/plastic cup which is fixed to the walls.
Inside the cup there is small amount of liquid metal mercury. Just above the mercury is a semi-circular band of electrodes. If an earthquake occurs then the walls shake and in turn the mercury in the device also moves and completes the electronic circuit. As soon as the circuit is completed an alarm is sounded using the power of batteries attached to the device.
The whole device is in a glass box to prevent it from turning on by any other means.
The alarm will be useful in waking up people or alerting those who are awake in the hour of emergency and help them to save others and themselves.
| engineering |
| 21 | varuni | Project Title: Earthquake alarm
Name of participant: Varuni Saxena
Subject Category: Engineering
Synopsis
Earthquakes are one of the most catastrophic disasters faced by people. Currently it is not possible to predict them. Earthquakes can happen anytime, anywhere. However, more lives are lost when they occur during the night when most people are asleep.
An alarm which can wake people up can be most effective if it is installed in the house.
The device that can be used for this purpose is a semi-circular metal/plastic cup which is fixed to the walls.
Inside the cup there is small amount of liquid metal mercury. Just above the mercury is a semi-circular band of electrodes. If an earthquake occurs then the walls shake and in turn the mercury in the device also moves and completes the electronic circuit. As soon as the circuit is completed an alarm is sounded using the power of batteries attached to the device.
The whole device is in a glass box to prevent it from turning on by any other means.
The alarm will be useful in waking up people or alerting those who are awake in the hour of emergency and help them to save others and themselves.
| engineering |
| 22 | varuni | Project Title: Earthquake alarm
Name of participant: Varuni Saxena
Subject Category: Engineering
Synopsis
Earthquakes are one of the most catastrophic disasters faced by people. Currently it is not possible to predict them. Earthquakes can happen anytime, anywhere. However, more lives are lost when they occur during the night when most people are asleep.
An alarm which can wake people up can be most effective if it is installed in the house.
The device that can be used for this purpose is a semi-circular metal/plastic cup which is fixed to the walls.
Inside the cup there is small amount of liquid metal mercury. Just above the mercury is a semi-circular band of electrodes. If an earthquake occurs then the walls shake and in turn the mercury in the device also moves and completes the electronic circuit. As soon as the circuit is completed an alarm is sounded using the power of batteries attached to the device.
The whole device is in a glass box to prevent it from turning on by any other means.
The alarm will be useful in waking up people or alerting those who are awake in the hour of emergency and help them to save others and themselves.
| engineering |
| 23 | NEERAJ PARTETY | STEP DOWN DC TRANSFORMER:
PRINCIPLE :CONVERSION OF LASER ENERGY INTO ELECTRICAL ENERGY.
CONSTRUCTION :IT CONSIST OF LASER SOURCE,AND A PHOTOVOLTAIC CELL.
WORKING :THE PROCEDURE FOR STEP DOWINING THE DC VOLT IS AS FOLLOWS:
1.TO GENERATE A LASER IN RUBY-LASER ENERGY IS TO BE PASSED TO THE RUBU ROD BY THE XENON FLASH LAMP AND THE LASER IS EMITTED.
2.THE LASER SO DEVELOPED IS ON EFFICIENCY OF ABOUT 40%-60%.
3.THE LASER SO DEVELOPED SHOULD OF HIGHER CROSS SECTION,WHICH CAN BE ATTAINED BY USING A DIVERGING GLASS PLATE.
4.THIS WIDE BEAM IS MADE TO FALL ON PHOTOVOLTAIC CELL WHICH CONVERTS THIS ENERGY IN ELECTRICAL ENERGY
5.SINCE APPLIED DC AND OBTAINED DC CANNOT BE EQUAL BY THE KNOWLEDGE OF EFFICIENCY IF 100V DC IS PASSED TO XENON LAMP AND THE EFFICENCY OF LASER IS 50% THAN THE TRANMITTED RAY WILL BE OF 50V ANS THE EFFICIENCY OF PHOTOVOLTAIC CELL IS 14% THUS 7V WILL BE OBTAINED AS OUTPUT DC.
| engineering |
| 24 | Whizzy |
REFER --->http://www.msapp.net/ProjectsExhibition.aspx
Intelligent Systems ( Motion Sensor )
The proposed construction of this intelligent system is a purely a digital realm; not yet technically feasible in the strictest sense. By extension this is a form of simulated reality. Making the fullest use of a web cam and trying to make it a digital intelligent system. This project aims to make a web cam a feasible device that can actually be used to detect motion and to help in the fields of both Artificial intelligence , Bio metrics & at times security also.
Technology
• This project has been tested successfully on all major windows platforms (Win 95, Win 9x, Win NT, Win ME, Win XP)
• The project has been developed in Visual Basic 6.0 (now working with .NET, but not completed)
• Hardware : Web Cam minimum 800 * 600 resolution, 32 Bit color
| computerscience |
| 25 | Whizzy |
Motion Sensor
(Virtual Reality)
Project by : Vinod Senthil.T
Kumaran.M
VELAMMAL ENGINEERING COLLEGE
Introduction
Motion detection includes methods by which motion has been identified. Generally, Motion detection sensors detect sound and produce an alarm. There are motion detection sensors which employ microphone connected to a computer and this detects certain objects moving.
Static Motion Detection
There are many approaches for motion detection in continuous video streams. Most of them are based on comparison of the current frame with the old previous frame. When there is no relative motion with the scene that it is monitoring . This type of motion sensors are called as Static Motion Detection.
Example:
v A camera fixed on top corner in a hotel room.
v A camera fixed in banks.
Dynamic Motion Detection
Motion sensing can be difficult at times when the background scene is also changing , ie there is a relative motion between the camera and the scene that it is monitoring. This type of motion sensors are called Dynamic Motion Detection.
Example:
v A rotating camera on top corner in a vehicle parking subway.
v Rotating cameras that orbit in a circular orbit, in security labs.
Our Project
Main idea behind this project is that, the implementation part is done first of its kind. Here, we deal with the Static Positioning of the camera, that is, the camera is fixed and the background doesn’t change. We Assume the video stream that we capture are RGB 24 Bit Format. We capture the video from an external source; we use a web cam to solve the basic purpose of capturing the external environment. The External Environment is captured as a video stream, we all know that any video is a sequence of frames/images rolled together one behind the other. So, we consider the entire video as a set of frames, we save the frame in the clipboard that is captured at the moment, and then the next captured frame is then compared with the previous frame that is stored temporary in the clipboard. For any implementation part of a software that deals with input devices , there needs to be a tolerance level that is to be set.
Comparison Part
The External Environment is captured as a video stream, we all know that any video is a sequence of frames/images rolled together one behind the other. So, we consider the entire video as a set of frames, we save the frame in the clipboard that is captured at the moment, and then the next captured frame is then compared with the previous frame that is stored temporary in the clipboardIf each R, G and B are more or less the same, then the pixel is same still , In a perfect camera or any software tolerance should be theoretically 1, but it need not be the same for our project.
'Get the picture from camera.. the main part
SendMessage mCapHwnd, GET_FRAME, 0, 0
SendMessage mCapHwnd, COPY, 0, 0
Picture1.Picture = Clipboard.GetData
Clipboard.Clear
'set up the visual stuff
Picture1.Width = 640 * Screen.TwipsPerPixelX
Picture1.Height = 480 * Screen.TwipsPerPixelY
'getting a point from the capture frame
c = Picture1.Point(i * inten * Tppx, j * inten * Tppy)
'analyze it, Red, Green, Blue
R = c Mod 256
G = (c \ 256) Mod 256
B = (c \ 256 \ 256) Mod 256
'recall what the point was one step before this
c2 = P(i, j)
'analyze it
R2 = c2 Mod 256
G2 = (c2 \ 256) Mod 256
B2 = (c2 \ 256 \ 256) Mod 256
'make a red dot
P(i, j) = Picture1.Point(i * inten * Tppx, j * inten * Tppy)
Picture1.PSet (i * inten * Tppx, j * inten * Tppy), vbRed
POn(i, j) = False
End If
RGB 24 Bit Format
Full RGB color needs that the intensities of the three color component, RED GREEN and BLUE be specified for each and every Pixel. It is common for each component intensity to be stored as a 8-Bit integer and so each pixel requires 24 Bits to completely and accurately specify its color. Image formats that store a full 24 bits to describe each and every pixel are therefore said as 24- Bit color images.
Theory
The External Environment is captured as a video stream, we all know that any video is a sequence of frames rolled together one behind the other. So, we consider the entire video as a set of frames, we save the frame in the clipboard that is captured at the moment, and then the next captured frame is then compared with the previous frame that is stored temporary in the clipboard If each R, G and B are more or less the same, then the pixel is same still. We shall know a little about filters before we proceed.
Filters
For image processing different filters are used to analyze the images and make the necessary changes that are needed to it. It is easy to develop your own filters and to integrate them with your code or to use them in your application. An image processing application makes a histogram for image that allows you to get information about the Mean, Standard deviation , Median , Minimum and Maximum values and hence makes necessary changes to the image for further processing which changes for different thigns that you want to do with them.
Histogram
A graphical representation of a frequency distribution. The range of the variable is divided into class intervals for which the frequency of occurrence is represented by a rectangular column; the height of the column is proportional to the frequency of observations within the interval.An analysis tool consisting of a bar graph that can be used to identify contrast and dynamic range image problems.
* Histograms are found in high-end imaging software used to manipulate digital images.
Frame 1 (captured at 11:02.20 PM)
Frame 2(captured at 11:02.23 PM)
Misconceptions
There is a big misconception on the topic Motion Sensor. People generally mistake the topic Motion Sensor with the existing Internet Motion Sensor, This has nothing to do with the existing project as the concept itself is new. The Existing Internet Motion Sensor ( IMS ) is a threat monitoring system which is used to measure, characterize, and track emerging threats such as worms, denial of service attacks and network scanning activities.
Existing Techniques
There are infact a very few projects that are related to motion detection at the present day, To say, There are a few motion sensors , which mainly work on the principles based on the concepts of heat and noise.
Short Falls of the Existing techniques
v Implementation is expensive and difficult.
v They are mostly a hardware and not embedded with the computers, so the addition of features to the device becomes limited.
v Most of these devices are based on heat and noise sensing techiniques, so the accuracy of the project is trustable.
Our Project’s improvement over the Existing Techniques
v Implementation is Cheap and portable.
v Implementation is a software and is embedded with the computers, therefore the addition of features becomes very simple.
v This project is based on direct motion sensing techinique using a camera , therefore the accuracy increases.
Future Scope of our project
The future scope of our project is tremendous, as Most of the surveillance system fail to work in dark, therefore implementation of infrared viewing capabilities to view the surroundings in dark and therefore can give a detailed and a very clear detection of the motion.
| computerscience |
| 26 | NISHKARSH KAUSHIK,SAHIBA KAUR | IRIS OFFICIAL SYNOPSIS
1. Project Title : A COST EFFECTIVE TECHNIQUE FOR DETECTION AND CONTROLLING MOISTURE CONTENTS IN FOOD GRAINS
Name of the Participant(s) : (1) NISHKARSH KAUSHIK (XII SC.)
(2) SAHIBA KAUR (XII SC.)
Category PHYSICS/ENGINEERING
Synopsis :
In the agricultural countries like India, before introducing the harvested grain for storage or for grinding, adequate moisture contents are checked by simplest of the method of crushing the sample of grain under teeth or by oven-dry method which is time consuming laboratory method. Grain having excess moisture, if stored for long duration will spoil due to fungus/insect infestation. Failure and maintenance of adequate moisture contents may result in infected grains, reduced quantity and deteriorated quality food grains and hence will greatly affect the price of the grain which has a direct impact on the economy of the country.
Conventional methods of measurement are not only time consuming but also too costly to be afforded by farmers and are restricted to the research labs only. To meet these necessities we have to be on a look out for technique which is not only cost effective but also user-friendly.
The suggested design is based on the simple principle of co-axial capacitors in which flour grain acts as a dielectric medium between the two metallic cylinders placed co-axially.
As the moisture contents in grain flour changes, the dielectric constant and hence the capacitance of the system also changes. For a co-axial capacitor with a dielectric medium, capacitance is given by:
C= (k*2*pi*ε*l)/2.303*log(r2/r1): where l: length, r1 &r2 : radius of inner and outer cylinder , k: dielectric constant, ε : electrical permittivity of free space
The suggested scientific device has the following vital features:
1. Detection of moisture contents in the food grains before storage
2. Precise measurement of moisture contents in grains
3. Regulation of flow of water in grains before grinding
This novel and scientific technique is not only cost effective and accessible but also has a great commercial value.
Nishkarsh Kaushik Sahiba Kaur Renu Agarwal
Signature (Participant 1) Signature (Participant 2) Signature of Guide
Mr. V.P.Kaushik Mr. H.P.Syal
Signature(Parent of Participant1) Signature (Parent of Participant 2)
Date:5thjuly’06 : :
IRIS OFFICIAL SYNOPSIS
1. Project Title : A COST EFFECTIVE TECHNIQUE FOR DETECTION AND CONTROLLING MOISTURE CONTENTS IN FOOD GRAINS
Name of the Participant(s) : (1) NISHKARSH KAUSHIK (XII SC.)
(2) SAHIBA KAUR (XII SC.)
Category PHYSICS/ENGINEERING
Synopsis :
In the agricultural countries like India, before introducing the harvested grain for storage or for grinding, adequate moisture contents are checked by simplest of the method of crushing the sample of grain under teeth or by oven-dry method which is time consuming laboratory method. Grain having excess moisture, if stored for long duration will spoil due to fungus/insect infestation. Failure and maintenance of adequate moisture contents may result in infected grains, reduced quantity and deteriorated quality food grains and hence will greatly affect the price of the grain which has a direct impact on the economy of the country.
Conventional methods of measurement are not only time consuming but also too costly to be afforded by farmers and are restricted to the research labs only. To meet these necessities we have to be on a look out for technique which is not only cost effective but also user-friendly.
The suggested design is based on the simple principle of co-axial capacitors in which flour grain acts as a dielectric medium between the two metallic cylinders placed co-axially.
As the moisture contents in grain flour changes, the dielectric constant and hence the capacitance of the system also changes. For a co-axial capacitor with a dielectric medium, capacitance is given by:
C= (k*2*pi*ε*l)/2.303*log(r2/r1): where l: length, r1 &r2 : radius of inner and outer cylinder , k: dielectric constant, ε : electrical permittivity of free space
The suggested scientific device has the following vital features:
1. Detection of moisture contents in the food grains before storage
2. Precise measurement of moisture contents in grains
3. Regulation of flow of water in grains before grinding
This novel and scientific technique is not only cost effective and accessible but also has a great commercial value.
Nishkarsh Kaushik Sahiba Kaur Renu Agarwal
Signature (Participant 1) Signature (Participant 2) Signature of Guide
Mr. V.P.Kaushik Mr. H.P.Syal
Signature(Parent of Participant1) Signature (Parent of Participant 2)
Date:5thjuly’06 : :
IRIS OFFICIAL SYNOPSIS
1. Project Title : A COST EFFECTIVE TECHNIQUE FOR DETECTION AND CONTROLLING MOISTURE CONTENTS IN FOOD GRAINS
Name of the Participant(s) : (1) NISHKARSH KAUSHIK (XII SC.)
(2) SAHIBA KAUR (XII SC.)
Category PHYSICS/ENGINEERING
Synopsis :
In the agricultural countries like India, before introducing the harvested grain for storage or for grinding, adequate moisture contents are checked by simplest of the method of crushing the sample of grain under teeth or by oven-dry method which is time consuming laboratory method. Grain having excess moisture, if stored for long duration will spoil due to fungus/insect infestation. Failure and maintenance of adequate moisture contents may result in infected grains, reduced quantity and deteriorated quality food grains and hence will greatly affect the price of the grain which has a direct impact on the economy of the country.
Conventional methods of measurement are not only time consuming but also too costly to be afforded by farmers and are restricted to the research labs only. To meet these necessities we have to be on a look out for technique which is not only cost effective but also user-friendly.
The suggested design is based on the simple principle of co-axial capacitors in which flour grain acts as a dielectric medium between the two metallic cylinders placed co-axially.
As the moisture contents in grain flour changes, the dielectric constant and hence the capacitance of the system also changes. For a co-axial capacitor with a dielectric medium, capacitance is given by:
C= (k*2*pi*ε*l)/2.303*log(r2/r1): where l: length, r1 &r2 : radius of inner and outer cylinder , k: dielectric constant, ε : electrical permittivity of free space
The suggested scientific device has the following vital features:
1. Detection of moisture contents in the food grains before storage
2. Precise measurement of moisture contents in grains
3. Regulation of flow of water in grains before grinding
This novel and scientific technique is not only cost effective and accessible but also has a great commercial value.
Nishkarsh Kaushik Sahiba Kaur Renu Agarwal
Signature (Participant 1) Signature (Participant 2) Signature of Guide
Mr. V.P.Kaushik Mr. H.P.Syal
Signature(Parent of Participant1) Signature (Parent of Participant 2)
Date:5thjuly’06 : :
| physics |
| 27 | Ronak & Bhavesh | SOLAR POWER PLANT -on establishment of a solar power plant at different city, electricity can be produced. this plant can be established at places like railway station, cricket stadium etc. but the ideal place would be railway station. thus this plant doesn't need any extra space or area.the electricity produced in this plant can be used to run trains. thus we can use SOLAR TRAINS' free of pollution.the power plant can be made by arranging solar panels on the stations(roofs). the panels can be fixed over the roof of the train also. in the train we can have two separate blocks.one block can store energy to run train at nights and the other for regular day use. during day time electric energy can be stored in both the blocks. these blocks can be made in a separate carraige of a train.the solar energy can be converted by converter.direct sun rays will fall on the solar panels and this will be connected to the quarter which produces electricity.this energy will be saved.the motor connected to it will help to rotate the wheel by the electric system.IN SHORT, THE SYSTEM WITH WHICH TRAIN RUNS IS THE SAME BUT THE SOLAR ELECTRICITY IS USED FOR THAT.(SAME WORKING DIFFERENT SOURCE OF ENERGY).in this way panels can be arranged on the ROOF OF THE TRAIN, ON THE STATIONS and also ON THE ELECTRIC POSTS(which exists already around the stations.) thus the excess energy produced can be transferred at other working places also. in the MONSOON SEASON the energy which is conserved with the help of 'solar panels on the roof of the station' can be used. IN FACT,if the energy conserved is not sufficient in the monsoon. than also the energy for 7 to 8 months of a year(12 months) can be saved which is almost 75% conservation.this power plant can be used for other electrical works if the conservation is more. | environmental |
| 28 | Ronak & Bhavesh | | |
| 29 | Ronak & Bhavesh | | |
| 30 | NISHKARSH KAUSHIK,SAHIBA KAUR | IRIS OFFICIAL SYNOPSIS
1. Project Title : A COST EFFECTIVE TECHNIQUE FOR DETECTION AND
CONTROLLING MOISTURE CONTENTS IN FOOD GRAINS
Name of the Participant(s) : (1) NISHKARSH KAUSHIK (XII SC.)
(2) SAHIBA KAUR (XII SC.)
Category PHYSICS/ENGINEERING
Synopsis :
In the agricultural countries like India, before introducing the harvested grain for
storage or for grinding, adequate moisture contents are checked by simplest of the
method of crushing the sample of grain under teeth or by oven-dry method which
is time consuming laboratory method. Grain having excess moisture, if stored for
long duration will spoil due to fungus/insect infestation. Failure and maintenance
of adequate moisture contents may result in infected grains, reduced quantity and
deteriorated quality food grains and hence will greatly affect the price of the grain
which has a direct impact on the economy of the country.
Conventional methods of measurement are not only time consuming but also too
costly to be afforded by farmers and are restricted to the research labs only. To
meet these necessities we have to be on a look out for technique which is not only
cost effective but also user-friendly.
The suggested design is based on the simple principle of co-axial capacitors in
which flour grain acts as a dielectric medium between the two metallic cylinders
placed co-axially.
As the moisture contents in grain flour changes, the dielectric constant and hence
the capacitance of the system also changes. For a co-axial capacitor with a
dielectric medium, capacitance is given by:
C= (k*2*pi*ε*l)/2.303*log(r2/r1): where l: length, r1 &r2 : radius of inner and outer
cylinder , k: dielectric constant, ε : electrical permittivity of free space
The suggested scientific device has the following vital features:
1. Detection of moisture contents in the food grains before storage
2. Precise measurement of moisture contents in grains
3. Regulation of flow of water in grains before grinding
This novel and scientific technique is not only cost effective and accessible but
also has a great commercial value.
Nishkarsh Kaushik Sahiba Kaur Renu Agarwal
Signature (Participant 1) Signature (Participant 2) Signature of Guide
Mr. V.P.Kaushik Mr. H.P.Syal
Signature(Parent of Participant1) Signature (Parent of Participant 2)
Date:5thjuly’06 : :
Section Break (Continuous)
| physics |
| 31 | quantum | Project Title : A coupled oscillator model for Grover's quantum database search algorithm.
Name of the Participant : Aavishkar Apoorva Patel
Category : Physics
Synopsis :
Grover's database search algorithm is the optimal algorithm for identifying a desired object from an unsorted collection of
items.Although it was discovered in the context of quantum computation, it is simple and versatile enough to be implemented
using any physical system that allows superposition of states. I analyse a mechanical realisation of the algorithm using coupled simple harmonic oscillators, and construct its physical model for the simplest case of 4 identical oscillators. The identification
oracle is realised as elastic reflection of the specific oscillator, and the overrelaxation operation is realised as evolution of the
system by half an oscillation period. I explore the sensitivity of the algorithm to changes in the initial conditions and damping,
both analytically and experimentally. The amplitude amplification provided by the algorithm enhances the probability of the
desired object in the quantum case, while it enhances the energy of the desired oscillator in the mechanical case. The focusing
of energy into a specific oscillator can have interesting applications in processes that need crossing of an energy threshold
for completion.This mechanism may be useful in nanotechnological devices. | physics |
| 32 | quantum | Project Title : A coupled oscillator model for Grover's quantum database search algorithm.
Name of the Participant : Aavishkar Apoorva Patel
Category : Physics
Synopsis :
Grover's database search algorithm is the optimal algorithm for identifying a desired object from an unsorted collection of
items.Although it was discovered in the context of quantum computation, it is simple and versatile enough to be implemented
using any physical system that allows superposition of states. I analyse a mechanical realisation of the algorithm using coupled simple harmonic oscillators, and construct its physical model for the simplest case of 4 identical oscillators. The identification
oracle is realised as elastic reflection of the specific oscillator, and the overrelaxation operation is realised as evolution of the
system by half an oscillation period. I explore the sensitivity of the algorithm to changes in the initial conditions and damping,
both analytically and experimentally. The amplitude amplification provided by the algorithm enhances the probability of the
desired object in the quantum case, while it enhances the energy of the desired oscillator in the mechanical case. The focusing
of energy into a specific oscillator can have interesting applications in processes that need crossing of an energy threshold
for completion.This mechanism may be useful in nanotechnological devices. | physics |
| 33 | quantum | Project Title : A coupled oscillator model for Grover's quantum database search algorithm.
Name of the Participant : Aavishkar Apoorva Patel
Category : Physics
Synopsis :
Grover's database search algorithm is the optimal algorithm for identifying a desired object from an unsorted collection of
items.Although it was discovered in the context of quantum computation, it is simple and versatile enough to be implemented
using any physical system that allows superposition of states. I analyse a mechanical realisation of the algorithm using coupled simple harmonic oscillators, and construct its physical model for the simplest case of 4 identical oscillators. The identification
oracle is realised as elastic reflection of the specific oscillator, and the overrelaxation operation is realised as evolution of the
system by half an oscillation period. I explore the sensitivity of the algorithm to changes in the initial conditions and damping,
both analytically and experimentally. The amplitude amplification provided by the algorithm enhances the probability of the
desired object in the quantum case, while it enhances the energy of the desired oscillator in the mechanical case. The focusing
of energy into a specific oscillator can have interesting applications in processes that need crossing of an energy threshold
for completion.This mechanism may be useful in nanotechnological devices. | |
| 34 | quantum | Project Title : A coupled oscillator model for Grover's quantum database search algorithm.
Name of the Participant : Aavishkar Apoorva Patel
Category : Physics
Synopsis :
Grover's database search algorithm is the optimal algorithm for identifying a desired object from an unsorted collection of
items.Although it was discovered in the context of quantum computation, it is simple and versatile enough to be implemented
using any physical system that allows superposition of states. I analyse a mechanical realisation of the algorithm using coupled simple harmonic oscillators, and construct its physical model for the simplest case of 4 identical oscillators. The identification
oracle is realised as elastic reflection of the specific oscillator, and the overrelaxation operation is realised as evolution of the
system by half an oscillation period. I explore the sensitivity of the algorithm to changes in the initial conditions and damping,
both analytically and experimentally. The amplitude amplification provided by the algorithm enhances the probability of the
desired object in the quantum case, while it enhances the energy of the desired oscillator in the mechanical case. The focusing
of energy into a specific oscillator can have interesting applications in processes that need crossing of an energy threshold
for completion.This mechanism may be useful in nanotechnological devices. | physics |
| 35 | Jhinuk | The Engine for future
This is an era of limitation. All the mineral resources of earth, especially the fossil fuels (coal, crude oil) are tending to be burned out. Now a day the earth is suffering from acute air pollution. Automobile emission contributes to a great extent to the air pollution. If we can device such an engine that has essentially no harmful emission we can tackle this problem and make the earth greener. We may consider pure water as fuel. First electrolysis of water should be performed. The hydrogen obtained in this process may be used to drive the engine.
Hence, in short, we can consider making an engine, which use hydrogen generated by hydrolysis of water to be operated.
Note: This is just an idea. I have not performed any kind of practical experiment. But I want to devote myself fully to work on my idea to bring fruitful result under guidance of proper person.
| engineering |
| 36 | WebPlex | ‘Convergence’ of Various Technologies. Online applications build to improve commoner’s lifestyle. Provide improved alternate to our traditional means of entertainment and lifestyle through the internet. Provide services to the national & international market. Provide services to employers, employee and consumers for better interaction with each other using application like PlexCallSheet, connecting shop owners to the consumers by making their services available online so that the consumers can call/request/buy services/products sitting right in front of their laptops or desktops. This idea can be further extended to provide services on the user’s mobile/handheld device through wireless connectivity. Online services include broadcasting feature film, video-on-demand, music-on-demand, live television and live radio channels right across the internet (Genre And Content From Around The World). An Attempt can be made to encourage the use of broadband connectivity among the commoners (national and international) to enjoy high end user friendly applications. It also includes all profession business and personal needs. | computerscience |
| 37 | Muon | Name of the experiment :
Vidyut Ganga
Purpose of the experiment:
The process of desalination of sea water is a very old process which is working from centuries. Be it the voyagers ,who used this technique to purify sea water in their long voyages for drinking purpose .The 70% part of our planet earth is covered with oceans i.e. salinated water which is not of any use to mankind , like not fit for drinking. The main aim of undertaking such an experiment is to produce purified water along with electricity generation.
The world is facing crisis both with water and energy generation. This experiment aims at solving the problems of water and electricity and mainly for the Indian villages which face acute water and electricity problems.
Procedure used:
The basic source of this experiment is salinated water which is available to us in the form of seas and oceans and it is an unlimited source. The salinated water is desalinated using reverse osmosis or using carbon filtration which removes the various impurities and muddy particles. The desalinated water is then passed through the water turbine which produces electricity.
The water is passed to the other container which heats up this water to produce steam and the remaining impurities are also removed and the steam is then used in steam turbine to produce electricity and the steam is then condensed to provide clean and safe water for drinking.
It is a two way power generation process.
Conclusion:
The idea behind the project is to provide pure drinking water and electricity to modernize the Indian villages in the peninsular part of India. The main advantages are that it is cost effective and simple to operate and working material is obtainable.
| environmental |
| 38 | Muon | Name of the experiment :
Vidyut Ganga
Purpose of the experiment:
The process of desalination of sea water is a very old process which is working from centuries. Be it the voyagers ,who used this technique to purify sea water in their long voyages for drinking purpose .The 70% part of our planet earth is covered with oceans i.e. salinated water which is not of any use to mankind , like not fit for drinking. The main aim of undertaking such an experiment is to produce purified water along with electricity generation.
The world is facing crisis both with water and energy generation. This experiment aims at solving the problems of water and electricity and mainly for the Indian villages which face acute water and electricity problems.
Procedure used:
The basic source of this experiment is salinated water which is available to us in the form of seas and oceans and it is an unlimited source. The salinated water is desalinated using reverse osmosis or using carbon filtration which removes the various impurities and muddy particles. The desalinated water is then passed through the water turbine which produces electricity.
The water is passed to the other container which heats up this water to produce steam and the remaining impurities are also removed and the steam is then used in steam turbine to produce electricity and the steam is then condensed to provide clean and safe water for drinking.
It is a two way power generation process.
Conclusion:
The idea behind the project is to provide pure drinking water and electricity to modernize the Indian villages in the peninsular part of India. The main advantages are that it is cost effective and simple to operate and working material is obtainable.
| environmental |
| 39 | MAYANK SHARMA,ANKUR GULATI | | physics |
| 40 | MAYANK SHARMA,ANKUR GULATI | THE INNOVATIVE RAIL ENGINEER (TIRE)
Aptly titled as the rail engineer, our project centers itself around one of the most
important modes of transportation in India i.e. railways.
Nowadays, the population of the world is growing at an alarming rate. This increasing
population has increasing demands. And to meet these ever-escalating requirements, we
have to be on a look-out for new ways of harnessing energy. We would have to explore
those sources of energy wherein we don’t lose out on our natural environment and don’t
pose a threat to our already-scarce resources.
With this aim in mind, we decided to take up this project of harnessing energy FOR THE
TRAIN, FROM THE TRAIN. This is because The Energy Generated is The Energy
Utilized.
In this cost-effective design, a small cylindrical magnet is installed towards the inner edge
of the railway track under which a coil is fixed. Whenever the magnet is in relative motion
with the coil due the approaching metro/trains, an electromotive force (e.m.f) is induced in
the coil (as per faraday’s law of induction).
Results
According to the calculations the power generated by one such device is around 3 watts.
Such a type of construction has major applications for the following:
Signaling-specially at nights and on hilly terrains.
Small machine operations
Energy storage and charging of batteries
Locating the breakage in the railway tracks | physics |
| 41 | MAYANK SHARMA | THE INNOVATIVE RAIL ENGINEER (TIRE)
Aptly titled as the rail engineer, our project centers itself around one of the most
important modes of transportation in India i.e. railways.
Nowadays, the population of the world is growing at an alarming rate. This increasing
population has increasing demands. And to meet these ever-escalating requirements, we
have to be on a look-out for new ways of harnessing energy. We would have to explore
those sources of energy wherein we don’t lose out on our natural environment and don’t
pose a threat to our already-scarce resources.
With this aim in mind, we decided to take up this project of harnessing energy FOR THE
TRAIN, FROM THE TRAIN. This is because The Energy Generated is The Energy
Utilized.
In this cost-effective design, a small cylindrical magnet is installed towards the inner edge
of the railway track under which a coil is fixed. Whenever the magnet is in relative motion
with the coil due the approaching metro/trains, an electromotive force (e.m.f) is induced in
the coil (as per faraday’s law of induction).
Results
According to the calculations the power generated by one such device is around 3 watts.
Such a type of construction has major applications for the following:
Signaling-specially at nights and on hilly terrains.
Small machine operations
Energy storage and charging of batteries
Locating the breakage in the railway tracks | physics |
| 42 | MAYANK SHARMA | THE INNOVATIVE RAIL ENGINEER (TIRE)
Aptly titled as the rail engineer, our project centers itself around one of the most
important modes of transportation in India i.e. railways.
Nowadays, the population of the world is growing at an alarming rate. This increasing
population has increasing demands. And to meet these ever-escalating requirements, we
have to be on a look-out for new ways of harnessing energy. We would have to explore
those sources of energy wherein we don’t lose out on our natural environment and don’t
pose a threat to our already-scarce resources.
With this aim in mind, we decided to take up this project of harnessing energy FOR THE
TRAIN, FROM THE TRAIN. This is because The Energy Generated is The Energy
Utilized.
In this cost-effective design, a small cylindrical magnet is installed towards the inner edge
of the railway track under which a coil is fixed. Whenever the magnet is in relative motion
with the coil due the approaching metro/trains, an electromotive force (e.m.f) is induced in
the coil (as per faraday’s law of induction).
Results
According to the calculations the power generated by one such device is around 3 watts.
Such a type of construction has major applications for the following:
Signaling-specially at nights and on hilly terrains.
Small machine operations
Energy storage and charging of batteries
Locating the breakage in the railway tracks | physics |
| 43 | MAYANK SHARMA | THE INNOVATIVE RAIL ENGINEER (TIRE)
Aptly titled as the rail engineer, our project centers itself around one of the most
important modes of transportation in India i.e. railways.
Nowadays, the population of the world is growing at an alarming rate. This increasing
population has increasing demands. And to meet these ever-escalating requirements, we
have to be on a look-out for new ways of harnessing energy. We would have to explore
those sources of energy wherein we don’t lose out on our natural environment and don’t
pose a threat to our already-scarce resources.
With this aim in mind, we decided to take up this project of harnessing energy FOR THE
TRAIN, FROM THE TRAIN. This is because The Energy Generated is The Energy
Utilized.
In this cost-effective design, a small cylindrical magnet is installed towards the inner edge
of the railway track under which a coil is fixed. Whenever the magnet is in relative motion
with the coil due the approaching metro/trains, an electromotive force (e.m.f) is induced in
the coil (as per faraday’s law of induction).
Results
According to the calculations the power generated by one such device is around 3 watts.
Such a type of construction has major applications for the following:
Signaling-specially at nights and on hilly terrains.
Small machine operations
Energy storage and charging of batteries
Locating the breakage in the railway tracks | physics |
| 44 | MAYANK SHARMA | THE INNOVATIVE RAIL ENGINEER (TIRE)
Aptly titled as the rail engineer, our project centers itself around one of the most
important modes of transportation in India i.e. railways.
Nowadays, the population of the world is growing at an alarming rate. This increasing
population has increasing demands. And to meet these ever-escalating requirements, we
have to be on a look-out for new ways of harnessing energy. We would have to explore
those sources of energy wherein we don’t lose out on our natural environment and don’t
pose a threat to our already-scarce resources.
With this aim in mind, we decided to take up this project of harnessing energy FOR THE
TRAIN, FROM THE TRAIN. This is because The Energy Generated is The Energy
Utilized.
In this cost-effective design, a small cylindrical magnet is installed towards the inner edge
of the railway track under which a coil is fixed. Whenever the magnet is in relative motion
with the coil due the approaching metro/trains, an electromotive force (e.m.f) is induced in
the coil (as per faraday’s law of induction).
Results
According to the calculations the power generated by one such device is around 3 watts.
Such a type of construction has major applications for the following:
Signaling-specially at nights and on hilly terrains.
Small machine operations
Energy storage and charging of batteries
Locating the breakage in the railway tracks | physics |
| 45 | MAYANK SHARMA | THE INNOVATIVE RAIL ENGINEER (TIRE)
Aptly titled as the rail engineer, our project centers itself around one of the most
important modes of transportation in India i.e. railways.
Nowadays, the population of the world is growing at an alarming rate. This increasing
population has increasing demands. And to meet these ever-escalating requirements, we
have to be on a look-out for new ways of harnessing energy. We would have to explore
those sources of energy wherein we don’t lose out on our natural environment and don’t
pose a threat to our already-scarce resources.
With this aim in mind, we decided to take up this project of harnessing energy FOR THE
TRAIN, FROM THE TRAIN. This is because The Energy Generated is The Energy
Utilized.
In this cost-effective design, a small cylindrical magnet is installed towards the inner edge
of the railway track under which a coil is fixed. Whenever the magnet is in relative motion
with the coil due the approaching metro/trains, an electromotive force (e.m.f) is induced in
the coil (as per faraday’s law of induction).
Results
According to the calculations the power generated by one such device is around 3 watts.
Such a type of construction has major applications for the following:
Signaling-specially at nights and on hilly terrains.
Small machine operations
Energy storage and charging of batteries
Locating the breakage in the railway tracks | physics |
| 46 | MAYANK SHARMA | THE INNOVATIVE RAIL ENGINEER (TIRE)
Aptly titled as the rail engineer, our project centers itself around one of the most
important modes of transportation in India i.e. railways.
Nowadays, the population of the world is growing at an alarming rate. This increasing
population has increasing demands. And to meet these ever-escalating requirements, we
have to be on a look-out for new ways of harnessing energy. We would have to explore
those sources of energy wherein we don’t lose out on our natural environment and don’t
pose a threat to our already-scarce resources.
With this aim in mind, we decided to take up this project of harnessing energy FOR THE
TRAIN, FROM THE TRAIN. This is because The Energy Generated is The Energy
Utilized.
In this cost-effective design, a small cylindrical magnet is installed towards the inner edge
of the railway track under which a coil is fixed. Whenever the magnet is in relative motion
with the coil due the approaching metro/trains, an electromotive force (e.m.f) is induced in
the coil (as per faraday’s law of induction).
Results
According to the calculations the power generated by one such device is around 3 watts.
Such a type of construction has major applications for the following:
Signaling-specially at nights and on hilly terrains.
Small machine operations
Energy storage and charging of batteries
Locating the breakage in the railway tracks | physics |
| 47 | WebPlex | ‘Convergence’ of Various Technologies. Online applications build to improve commoner’s lifestyle. Provide improved alternate to our traditional means of entertainment and lifestyle through the internet. Provide services to the national & international market. Provide services to employers, employee and consumers for better interaction with each other using application like PlexCallSheet, connecting shop owners to the consumers by making their services available online so that the consumers can call/request/buy services/products sitting right in front of their laptops or desktops. This idea can be further extended to provide services on the user’s mobile/handheld device through wireless connectivity. Online services include broadcasting feature film, video-on-demand, music-on-demand, live television and live radio channels right across the internet (Genre And Content From Around The World). An Attempt can be made to encourage the use of broadband connectivity among the commoners (national and international) to enjoy high end user friendly applications. It also includes all profession business and personal needs. | computerscience |
| 48 | Nishkarsh Kaushik,Sahiba Syal | Project Title : AN INNOVATIVE TECHNIQUE FOR DETECTION AND CONTROLLIN MOITURE CONTENTS IN FOOD GRAINS
Name of the Participant(s) : (1) NISHKARSH KAUSHIK(XII SC.)
(2) SAHIBA KAUR(XII SC.)
Category PHYSICS
Synopsis :
In the agricultural countries like India, before introducing the harvested grain for storage or for grinding, adequate moisture contents are checked by simple method of crushing the sample of grain under teeth. If pressed easily then it is assumed that grain contains moisture which is to be evaporated and if it crushed easily then it suggests the deficiency of moisture contents. Failure and maintenance of adequate moisture contents may result in infected grains, reduced quantity and deteriorated quality food grains.
Although scientific techniques are available in the developed countries but they are too costly to be afforded by farmers and are restricted to the research labs only. To meet these necessities we have to be on a look out for technique which is not only cost effective but also user-friendly.
The suggested design is based on the simple principle of co-axial capacitors in which flour grain acts as a dielectric medium between the two metallic cylinders placed co-axially.
As the moisture contents in grain flour changes, the dielectric constant and hence the capacitance of the system also changes. For a co-axial capacitor with a dielectric medium, capacitance is given by:
C= (k*2*pi*å*l)/2.303*log(r2/r1): where l: length, r1 &r2 : radius of inner and outer cylinder , k: dielectric constant, å : electrical permittivity of free space
The suggested scientific device has the following vital features:
1. Detection of moisture contents in the food grains before storage
2. Precise measurement of moisture contents in grains
3. Regulation of flow of water in grains before grinding
This novel and scientific technique is not only cost effective and accessible but also has a great commercial value.
| physics |
| 49 | Nishkarsh Kaushik,Sahiba Syal | Project Title : AN INNOVATIVE TECHNIQUE FOR DETECTION AND CONTROLLIN MOITURE CONTENTS IN FOOD GRAINS
Name of the Participant(s) : (1) NISHKARSH KAUSHIK(XII SC.)
(2) SAHIBA KAUR(XII SC.)
Category PHYSICS
Synopsis :
In the agricultural countries like India, before introducing the harvested grain for storage or for grinding, adequate moisture contents are checked by simple method of crushing the sample of grain under teeth. If pressed easily then it is assumed that grain contains moisture which is to be evaporated and if it crushed easily then it suggests the deficiency of moisture contents. Failure and maintenance of adequate moisture contents may result in infected grains, reduced quantity and deteriorated quality food grains.
Although scientific techniques are available in the developed countries but they are too costly to be afforded by farmers and are restricted to the research labs only. To meet these necessities we have to be on a look out for technique which is not only cost effective but also user-friendly.
The suggested design is based on the simple principle of co-axial capacitors in which flour grain acts as a dielectric medium between the two metallic cylinders placed co-axially.
As the moisture contents in grain flour changes, the dielectric constant and hence the capacitance of the system also changes. For a co-axial capacitor with a dielectric medium, capacitance is given by:
C= (k*2*pi*å*l)/2.303*log(r2/r1): where l: length, r1 &r2 : radius of inner and outer cylinder , k: dielectric constant, å : electrical permittivity of free space
The suggested scientific device has the following vital features:
1. Detection of moisture contents in the food grains before storage
2. Precise measurement of moisture contents in grains
3. Regulation of flow of water in grains before grinding
This novel and scientific technique is not only cost effective and accessible but also has a great commercial value
| physics |
| 50 | dfsdf | fgjgfjhghj
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j
ghj
hj
khjm | biochemistry |
| 51 | The Thunderbolt | We can’t imagine that a single lightning flash is capable of giving us an infinitive amount of energy. This seems to be unreasonable but this is true being supported by the facts/data and our project which proposes a PLAN to harness this everlasting free falling energy.
We know that lightning occurs due to flow of negative charge at the clouds base to the earth’s surface and if we can store this charge say in a huge capacitor, then this would enable us to have an unending amount of energy. A large capacitor can be made by arranging lakhs or crores of smaller capacitances in parallel to sum up. For capturing a lightning flash, we would employ High Rise Antennas (HRA) as high as 400 meters which would conduct charge to the capacitor assembly. The advantage is that we charge as many capacitive assemblies to a similar voltage by joining them in series.
In this way such plants (Capacitive Intra Charging Plants (CICP)) all across the continent (to form Inter City Charging Lightning Continent Circle (ICCLCC)) would be connected so that lightning fall at one place would be accessible all over the continent and with capability of capturing 5 flashes per second we would be having our CICPs charging all the time.
The assemblies so charged would be disjoined from series to parallel and now they would be discharged through power converter system (Electricity Converter and Supplier Equipment (ECSE)) to convert exponentially variable decaying d.c. into 50 Hz a.c.which can then be supplied to households.
For continuous supply there would be two High Capacitive Assemblies (HCA) so that when one would be discharging to domestic use other would be charging and after 15 minutes their work can be interchanged.
This is the basic suggested infrastructure for harnessing energy of natural lightning which can be further improved.
| environmental |
| 52 | The Thunderstorm | We can’t imagine that a single lightning flash is capable of giving us an infinitive amount of energy. This seems to be unreasonable but this is true being supported by the facts/data and our project which proposes a PLAN to harness this everlasting free falling energy.
We know that lightning occurs due to flow of negative charge at the clouds base to the earth’s surface and if we can store this charge say in a huge capacitor, then this would enable us to have an unending amount of energy. A large capacitor can be made by arranging lakhs or crores of smaller capacitances in parallel to sum up. For capturing a lightning flash, we would employ High Rise Antennas (HRA) as high as 400 meters which would conduct charge to the capacitor assembly. The advantage is that we charge as many capacitive assemblies to a similar voltage by joining them in series.
In this way such plants (Capacitive Intra Charging Plants (CICP)) all across the continent (to form Inter City Charging Lightning Continent Circle (ICCLCC)) would be connected so that lightning fall at one place would be accessible all over the continent and with capability of capturing 5 flashes per second we would be having our CICPs charging all the time.
The assemblies so charged would be disjoined from series to parallel and now they would be discharged through power converter system (Electricity Converter and Supplier Equipment (ECSE)) to convert exponentially variable decaying d.c. into 50 Hz a.c.which can then be supplied to households.
For continuous supply there would be two High Capacitive Assemblies (HCA) so that when one would be discharging to domestic use other would be charging and after 15 minutes their work can be interchanged.
This is the basic suggested infrastructure for harnessing energy of natural lightning which can be further improved.
| environmental |
| 53 | Parivartan | There are three projects I have in mind.
The first one is an AUTOMATED PDS . In other words its an automated ration dispensing system , something like an ATM,
where people can go with their ration cards and take out their necessary items .
The second one is an inbuilt stabilizer for equipment like Air Conditioner's and Refrigerators .
The third one is an EXTENDABLE TREE CUTTING TOOL, that will help cut only the necessary branches of
the tree and not the entire tree.
| physics |
| 54 | IMPACT | Considering todays position of electric power in India's rural area I have worked on a bio-electric plant.
After my series of experiments on this project i have reached to a sucess point where production of sufficient quantity of current was possible.
Here i have used two different steps in generation of electricity in rural area where avalibility of biomass is no problem.
The first step involves collection of electrons from the bacteria growing in decomposing biomass with help of appropriate electrodes in a specially designed container.
Also the current obtained by this method is regulated with help of our designed regulator
In the second step this regulated current is again passed into the biomass where accumulation of acetate takes place due to P.D. and high amount of hydrogen gas is obtained which is easily stored in similar pattern as rising of dome in biogas collection.
This H2 gas is then converted to several watts of current as per required by the morden hydrogen cells. | biochemistry |
| 55 | Talking Machine Creator | TALKING MACHINE
In today's world, there is a need always for a friend. Whenever a person feels lonely or wants to share his feelings with someone, he calls up his friend and starts chatting with him. To make this process simpler, Talking Machine was developed. Talking Machine is a program made in Java which helps a user to share his feelings. This program has tha ability to talk with the user and answer his questions.
The main idea of this project is to make the user feel that he is actually talking to his friend only, and not with a machine. This is actually done by this program. The program has a 'memory bank' called its 'brain', where the program stores some relevant information which is necessary to talk with someone, like, some english words, their meanings, and some other information related to some particular topics. When the program talks with the user, it stores all that the user says, and thus, it talks more effectively, the next time. In this way, the user doesn't feel that he is talking to a machine. If the program doesn't know what to say next, then it just replies with 'Ok, tell me more about it.' or 'Ok, that's cool, what do we do next?', and so on...
CONCLUSIONS
The key conclusions that can be drawn from my experiments with the Talking Machine, can be summarized here: The more the program talks, the more it learns and the more it learns, the more effectively it can talk the next time. | computerscience |
| 56 | Talking Machine Creator | TALKING MACHINE
In today's world, there is a need always for a friend. Whenever a person feels lonely or wants to share his feelings with someone, he calls up his friend and starts chatting with him. To make this process simpler, Talking Machine was developed. Talking Machine is a program made in Java which helps a user to share his feelings. This program has tha ability to talk with the user and answer his questions.
The main idea of this project is to make the user feel that he is actually talking to his friend only, and not with a machine. This is actually done by this program. The program has a 'memory bank' called its 'brain', where the program stores some relevant information which is necessary to talk with someone, like, some english words, their meanings, and some other information related to some particular topics. When the program talks with the user, it stores all that the user says, and thus, it talks more effectively, the next time. In this way, the user doesn't feel that he is talking to a machine. If the program doesn't know what to say next, then it just replies with 'Ok, tell me more about it.' or 'Ok, that's cool, what do we do next?', and so on...
CONCLUSIONS
The key conclusions that can be drawn from my experiments with the Talking Machine, can be summarized here: The more the program talks, the more it learns and the more it learns, the more effectively it can talk the next time. | computerscience |
| 57 | TALKING MACHINE | TALKING MACHINE
In today's world, there is a need always for a friend. Whenever a person feels lonely or wants to share his feelings with someone, he calls up his friend and starts chatting with him. To make this process simpler, Talking Machine was developed. Talking Machine is a program made in Java which helps a user to share his feelings. This program has tha ability to talk with the user and answer his questions.
The main idea of this project is to make the user feel that he is actually talking to his friend only, and not with a machine. This is actually done by this program. The program has a 'memory bank' called its 'brain', where the program stores some relevant information which is necessary to talk with someone, like, some english words, their meanings, and some other information related to some particular topics. When the program talks with the user, it stores all that the user says, and thus, it talks more effectively, the next time. In this way, the user doesn't feel that he is talking to a machine. If the program doesn't know what to say next, then it just replies with 'Ok, tell me more about it.' or 'Ok, that's cool, what do we do next?', and so on...
CONCLUSIONS
The key conclusions that can be drawn from my experiments with the Talking Machine can be summarized here: The more the program talks, the more it learns and the more it learns, the more effectively it can talk the next time.
| computerscience |
| 58 | Talking Machine Creator | TALKING MACHINE
In today's world, there is a need always for a friend. Whenever a person feels lonely or wants to share his feelings with someone, he calls up his friend and starts chatting with him. To make this process simpler, Talking Machine was developed. Talking Machine is a program made in Java which helps a user to share his feelings. This program has tha ability to talk with the user and answer his questions.
The main idea of this project is to make the user feel that he is actually talking to his friend only, and not with a machine. This is actually done by this program. The program has a 'memory bank' called its 'brain', where the program stores some relevant information which is necessary to talk with someone, like, some english words, their meanings, and some other information related to some particular topics. When the program talks with the user, it stores all that the user says, and thus, it talks more effectively, the next time. In this way, the user doesn't feel that he is talking to a machine. If the program doesn't know what to say next, then it just replies with 'Ok, tell me more about it.' or 'Ok, that's cool, what do we do next?', and so on...
CONCLUSIONS
The key conclusions that can be drawn from my experiments with the Talking Machine can be summarized here: The more the program talks, the more it learns and the more it learns, the more effectively it can talk the next time.
| computerscience |
| 59 | No name | Possible cure for HIV | biochemistry |
| 60 | Sree Narayana | THE LIGHTER SIDE OF RUBBER : NATURAL RUBBER AS AN OPTICAL RECORDING MEIDUM
Organic materials, especially polymers functionalized with photo-sensitive dyes, are an exciting class of optical materials for introducing new functionalities, particularly for recording data, images and visual information. The materials commonly used and investigated at present are costly chemicals and as such the product will not be a cost effective alternative to inorganic memory materials currently available in the market. Hence there are enough reasons to find more suitable and cost effective as well as easily processable polymeric materials for the purpose.
Natural Rubber (cis 1,4 polyisoprene) is one of the largest produce of our country, especially the state of Kerala. However the use of rubber as an optical material is hitherto unknown and would be of great interest because of its extreme cost effectiveness, abundance in availability and ease of processing (if made possible).
The principle behind the use of rubber latex and even radiation vulcanized latex as an optical material is that they can be easily dissolved and functionalized with photosensitive dyes like potassium dichromate. On exposing the dichromated rubber thin film masked with an image stencil, with high intensity light causes photo reduction at the exposed portions of the film. This followed by developing the film using a chemical developer like Aniline, images can be recorded in the film. Aniline, again a rather cheap chemical gets polymerized into the unexposed areas of the rubber film giving a composite material which allows permanent optical storage. Thus in dye sensitized natural rubber latex both fresh and vulcanized photo induced markings can be made with ease.
| physics |
| 61 | Sree Narayana |
THE LIGHTER SIDE OF RUBBER : NATURAL RUBBER AS AN OPTICAL RECORDING MEIDUM
Organic materials, especially polymers functionalized with photo-sensitive dyes, are an exciting class of optical materials for introducing new functionalities, particularly for recording data, images and visual information. The materials commonly used and investigated at present are costly chemicals and as such the product will not be a cost effective alternative to inorganic memory materials currently available in the market. Hence there are enough reasons to find more suitable and cost effective as well as easily processable polymeric materials for the purpose.
Natural Rubber (cis 1,4 polyisoprene) is one of the largest produce of our country, especially the state of Kerala. However the use of rubber as an optical material is hitherto unknown and would be of great interest because of its extreme cost effectiveness, abundance in availability and ease of processing (if made possible).
The principle behind the use of rubber latex and even radiation vulcanized latex as an optical material is that they can be easily dissolved and functionalized with photosensitive dyes like potassium dichromate. On exposing the dichromated rubber thin film masked with an image stencil, with high intensity light causes photo reduction at the exposed portions of the film. This followed by developing the film using a chemical developer like Aniline, images can be recorded in the film. Aniline, again a rather cheap chemical gets polymerized into the unexposed areas of the rubber film giving a composite material which allows permanent optical storage. Thus in dye sensitized natural rubber latex both fresh and vulcanized photo induced markings can be made with ease.
| physics |
| 62 | Sree Narayana | THE LIGHTER SIDE OF RUBBER : NATURAL RUBBER AS AN OPTICAL RECORDING MEIDUM
Organic materials, especially polymers functionalized with photo-sensitive dyes, are an exciting class of optical materials for introducing new functionalities, particularly for recording data, images and visual information. The materials commonly used and investigated at present are costly chemicals and as such the product will not be a cost effective alternative to inorganic memory materials currently available in the market. Hence there are enough reasons to find more suitable and cost effective as well as easily processable polymeric materials for the purpose.
Natural Rubber (cis 1,4 polyisoprene) is one of the largest produce of our country, especially the state of Kerala. However the use of rubber as an optical material is hitherto unknown and would be of great interest because of its extreme cost effectiveness, abundance in availability and ease of processing (if made possible).
The principle behind the use of rubber latex and even radiation vulcanized latex as an optical material is that they can be easily dissolved and functionalized with photosensitive dyes like potassium dichromate. On exposing the dichromated rubber thin film masked with an image stencil, with high intensity light causes photo reduction at the exposed portions of the film. This followed by developing the film using a chemical developer like Aniline, images can be recorded in the film. Aniline, again a rather cheap chemical gets polymerized into the unexposed areas of the rubber film giving a composite material which allows permanent optical storage. Thus in dye sensitized natural rubber latex both fresh and vulcanized photo induced markings can be made with ease.
| physics |
| 63 | Sree Narayana | THE LIGHTER SIDE OF RUBBER : NATURAL RUBBER AS AN OPTICAL RECORDING MEIDUM
Organic materials, especially polymers functionalized with photo-sensitive dyes, are an exciting class of optical materials for introducing new functionalities, particularly for recording data, images and visual information. The materials commonly used and investigated at present are costly chemicals and as such the product will not be a cost effective alternative to inorganic memory materials currently available in the market. Hence there are enough reasons to find more suitable and cost effective as well as easily processable polymeric materials for the purpose.
Natural Rubber (cis 1,4 polyisoprene) is one of the largest produce of our country, especially the state of Kerala. However the use of rubber as an optical material is hitherto unknown and would be of great interest because of its extreme cost effectiveness, abundance in availability and ease of processing (if made possible).
The principle behind the use of rubber latex and even radiation vulcanized latex as an optical material is that they can be easily dissolved and functionalized with photosensitive dyes like potassium dichromate. On exposing the dichromated rubber thin film masked with an image stencil, with high intensity light causes photo reduction at the exposed portions of the film. This followed by developing the film using a chemical developer like Aniline, images can be recorded in the film. Aniline, again a rather cheap chemical gets polymerized into the unexposed areas of the rubber film giving a composite material which allows permanent optical storage. Thus in dye sensitized natural rubber latex both fresh and vulcanized photo induced markings can be made with ease.
| physics |
| 64 | Sree Narayana | THE LIGHTER SIDE OF RUBBER : NATURAL RUBBER AS AN OPTICAL RECORDING MEIDUM
Organic materials, especially polymers functionalized with photo-sensitive dyes, are an exciting class of optical materials for introducing new functionalities, particularly for recording data, images and visual information. The materials commonly used and investigated at present are costly chemicals and as such the product will not be a cost effective alternative to inorganic memory materials currently available in the market. Hence there are enough reasons to find more suitable and cost effective as well as easily processable polymeric materials for the purpose.
Natural Rubber (cis 1,4 polyisoprene) is one of the largest produce of our country, especially the state of Kerala. However the use of rubber as an optical material is hitherto unknown and would be of great interest because of its extreme cost effectiveness, abundance in availability and ease of processing (if made possible).
The principle behind the use of rubber latex and even radiation vulcanized latex as an optical material is that they can be easily dissolved and functionalized with photosensitive dyes like potassium dichromate. On exposing the dichromated rubber thin film masked with an image stencil, with high intensity light causes photo reduction at the exposed portions of the film. This followed by developing the film using a chemical developer like Aniline, images can be recorded in the film. Aniline, again a rather cheap chemical gets polymerized into the unexposed areas of the rubber film giving a composite material which allows permanent optical storage. Thus in dye sensitized natural rubber latex both fresh and vulcanized photo induced markings can be made with ease.
| physics |
| 65 | Hydro Powers |
Cars running on water
Today the whole world is facing the biggest problem of energy crisis .According to the surveys we can only get the benefit of petroleum up to some 50 years hardly, so we must try something new that can be available in ample amount like water.
Hence we are presenting the self-designed project in which we have used the water as the source for running a vehicle.
The following ideas will be helpful for running the vehicles:
These are the Main components for designing this project
1. Water Tank
2. Motor
3. High pressure nozzle
4. Water Wheel
5. Engine
6. Dynamo
7. Battery
8. Return line for water
Construction & Working
1. The water tank is connected with the motor which is further connected to the tank containing the high pressure nozzle.
2. The water coming out from the high pressure nozzle will rotate the waterwheel.
3. The water wheel is attached to a shaft and the shaft also rotates with it.
4. The water accumulated in the second tank will automatically return to the main water tank by the low level of main water tank and non return valve.
5. The shaft is further connected to main engine with one end while the other end is connected to the Dynamo.
6. The engine will be the source for locomotion of vehicle & the dynamo will produce electricity and that will be supplied to the battery.
7. This Battery is the source for running the motor.
Thus we can use the Hydro Power for running the cars and other light weight vehicles.
Advantages:
1. This will give birth to the new variety of the vehicles which will run on renewable source of energy.
2. By this the pollution will decrease with a tremendous margin.
3. The use of petroleum products will be reduced to large extend.
| engineering |
| 66 | Hydro Power |
Cars running on water
Today the whole world is facing the biggest problem of energy crisis .According to the surveys we can only get the benefit of petroleum up to some 50 years hardly, so we must try something new that can be available in ample amount like water.
Hence we are presenting the self-designed project in which we have used the water as the source for running a vehicle.
The following ideas will be helpful for running the vehicles:
These are the main Components of our device:
1. Water Tank
2. Motor
3. High pressure nozzle
4. Water Wheel
5. Engine
6. Dynamo
7. Battery
8. Return line for water
Construction & Working:
1. The water tank is connected with the motor which is further connected to the tank containing the high pressure nozzle.
2. The water coming out from the high pressure nozzle will rotate the waterwheel.
3. The water wheel is attached to a shaft and the shaft also rotates with it.
4. The water accumulated in the second tank will automatically return to the main water tank by the low level of main water tank and non return valve.
5. The shaft is further connected to main engine with one end while the other end is connected to the Dynamo.
6. The engine will be the source for locomotion of vehicle & the dynamo will produce electricity and that will be supplied to the battery.
7. This Battery is the source for running the motor.
Thus we can use the Hydro Power for running the cars and other light weight vehicles.
Advantages:
1. This will give birth to the new variety of the vehicles which will run on renewable source of energy.
2. By this the pollution will decrease with a tremendous margin.
3. The use of petroleum products will be reduced to large extend.
| engineering |
| 67 | black buck | well i am a student of engg of ggsip university so i have two innovative
ideas which are following:-
1. first is about robots and that is we can robot like a man which can
work like a human so that we can send that on missions on stars but as if human
being are sended to stars then there is heavy requirment of food and waste material
and only way of sending of robots or live human beings is the rocket fueled by nuclear reactor
so on human beings there would be an adverse effect on human bodies if they would have to
survive in a rocket having artificial nuclear reactor so robots can be used and they can send signals
with great efficiency and self chargable.
2. my second idea is about nano computers means we can build nano computers so that
they can be replaced in complicated circuits to the microprocessor and this means
and they can be used in cctvs and by using that cctvs would be very small and they
| earthspace |
| 68 | Einstein team | Title: Reverse projector in future classrooms
Purpose : To develop portable and viewer friendly LCD projector TV/monitor mainly in the field of education.
To avoid the setbacks of presently used LCD monitors and TVs for eg.
1.Viewing angle.
2.delicacy and sensitivity of theLCD screen
3. Life or durability
4.Image size
5.Cost
As an alternate to theatre projectors
To substitute home theatres
To improove LCD projected presentations
Procedure: Take an LCD projector and rotate the image by 180 degree and then project the image on a transluscent screen placed in front of the LCD projector.Normally the projector will be on the same side of the audience
LCD projector Screen Audience
Advantage: Here the audience face no interruption and no rays seen in the middle among the audience,no intervening shadows as the projector and the screen are in front of the viewers.It is definitely above a television set by image quality and size of the image and this too is provided with a remote.To add to the advantage it is well and truly portable an LCD projector and a simple cloth screen to come along. This also helps in adding attraction to remote class room programmes either it be a TV programme or a recorded one like a DVD/CD.It will consume less electricity too and may be tried with solar power also.
Conclusion: Project things differently to have a different line of technology and thinking.
| engineering |
| 69 | sharks | | physics |
| 70 | Einstein team | Title: Reverse projector in future classrooms
Purpose : To develop portable and viewer friendly LCD projector TV/monitor mainly in the field of education.
To avoid the setbacks of presently used LCD monitors and TVs for eg.
1.Viewing angle.
2.delicacy and sensitivity of theLCD screen
3. Life or durability
4.Image size
5.Cost
As an alternate to theatre projectors
To substitute home theatres
To improove LCD projected presentations
Procedure: Take an LCD projector and rotate the image by 180 degree and then project the image on a transluscent screen placed in front of the LCD projector.Normally the projector will be on the same side of the audience
LCD projector Screen Audience
Advantage: Here the audience face no interruption and no rays seen in the middle among the audience,no intervening shadows as the projector and the screen are in front of the viewers.It is definitely above a television set by image quality and size of the image and this too is provided with a remote.To add to the advantage it is well and truly portable an LCD projector and a simple cloth screen to come along. This also helps in adding attraction to remote class room programmes either it be a TV programme or a recorded one like a DVD/CD.It will consume less electricity too and may be tried with solar power also.
Conclusion: Project things differently to have a different line of technology and thinking.
| engineering |
| 71 | Einstein team | Title: Reverse projector in future classrooms
Purpose : To develop portable and viewer friendly LCD projector TV/monitor mainly in the field of education.
To avoid the setbacks of presently used LCD monitors and TVs for eg.
1.Viewing angle.
2.delicacy and sensitivity of theLCD screen
3. Life or durability
4.Image size
5.Cost
As an alternate to theatre projectors
To substitute home theatres
To improove LCD projected presentations
Procedure: Take an LCD projector and rotate the image by 180 degree and then project the image on a transluscent screen placed in front of the LCD projector.Normally the projector will be on the same side of the audience
LCD projector Screen Audience
Advantage: Here the audience face no interruption and no rays seen in the middle among the audience,no intervening shadows as the projector and the screen are in front of the viewers.It is definitely above a television set by image quality and size of the image and this too is provided with a remote.To add to the advantage it is well and truly portable an LCD projector and a simple cloth screen to come along. This also helps in adding attraction to remote class room programmes either it be a TV programme or a recorded one like a DVD/CD.It will consume less electricity too and may be tried with solar power also.
Conclusion: Project things differently to have a different line of technology and thinking.
| engineering |
| 72 | RECHU'S ROBO | WIRELESS LAN CONTROLLED MOBILE ROBOTIC VEHICLE WITH ARM
HOW IDEA STRUCK ME?
One day while I was walking through the suburb of my city, I saw some persons closing their nose beside a waste dumping yard. The removal of waste was carried out by a JCB vehicle, the operator of which was wearing a cloth mask to overcome the dirty smell coming out. Then I thought about a robotic vehicle to do that unfair job. Then I thought about a robotic vehicle remotely operated in order to carry out the unfair job smoothly while eliminating the operator. I discussed my idea with my father. He gave me some technological ideas, thereafter we contacted a guide for further development.
INTRODUTION
A robot is a defined as a mechanical device controlled by CPU which is used to reduce human effort. When compared to human robot, it is a programmed mechanism that can act as an untied worker. This project is also intended to reduce the man hold energy in reasonable places. I have designed this project to satisfy the modern needs with the help of advanced technology. It is specially intended to work in such places where humans can not exist so for. Specialty of this vehicle is that it can be controlled from a distant place using wireless LAN technology along with a web camera. In this project, I am attempting to incorporate the above features in a proto type working model, which will help us to work in such places like minefields, space, war field etc.
AIM
To develop a technology for robotic vehicle with arm and to implement it in a prototype working model.
CONCLUSION
Ever since the invention, mobile robotic arm vehicle has influenced our life style in ways more than one. Be it space explorations or in engineering expeditions, vehicles are in the forefront helping mankind. Most common feature in all these applications is direction finding. The aim is to build an autonomous robotic arm that can be used for the above said purpose.
| computerscience |
| 73 | RECHU'S ROBO | WIRELESS LAN CONTROLLED MOBILE ROBOTIC VEHICLE WITH ARM
HOW IDEA STRUCK ME?
One day while I was walking through the suburb of my city, I saw some persons closing their nose beside a waste dumping yard. The removal of waste was carried out by a JCB vehicle, the operator of which was wearing a cloth mask to overcome the dirty smell coming out. Then I thought about a robotic vehicle to do that unfair job. Then I thought about a robotic vehicle remotely operated in order to carry out the unfair job smoothly while eliminating the operator. I discussed my idea with my father. He gave me some technological ideas, thereafter we contacted a guide for further development.
INTRODUTION
A robot is a defined as a mechanical device controlled by CPU which is used to reduce human effort. When compared to human robot, it is a programmed mechanism that can act as an untied worker. This project is also intended to reduce the man hold energy in reasonable places. I have designed this project to satisfy the modern needs with the help of advanced technology. It is specially intended to work in such places where humans can not exist so for. Specialty of this vehicle is that it can be controlled from a distant place using wireless LAN technology along with a web camera. In this project, I am attempting to incorporate the above features in a proto type working model, which will help us to work in such places like minefields, space, war field etc.
AIM
To develop a technology for robotic vehicle with arm and to implement it in a prototype working model.
CONCLUSION
Ever since the invention, mobile robotic arm vehicle has influenced our life style in ways more than one. Be it space explorations or in engineering expeditions, vehicles are in the forefront helping mankind. Most common feature in all these applications is direction finding. The aim is to build an autonomous robotic arm that can be used for the above said purpose.
| computerscience |
| 74 | SITARA2K6 | | environmental |
| 75 | SITARA2K6 | ABSTRACT: -
Green Engineering focuses on the design of materials, processes, systems, and devices with the objective of minimizing overall environmental impact (including energy utilization and waste production) throughout the entire life cycle of a product or process, from initial extraction of raw materials used in manufacture to ultimate disposal of materials that cannot be reused or recycled at the end of the useful life of a product.
Through this project, I have presented my idea of using Hydrogen as a source of fuel for a non-polluting and a completely eco-friendly environment. Proton Exchange Membrane (PEM) fuel cells are a proven technology as the astronauts in America used fuel cells to generate electricity since the 1960s, but more work is needed to make them cost-effective for use in cars, trucks, homes or businesses. Additional research and development is needed to spur rapid commercialization of these technologies so they can provide clean, domestically produced energy for transportation and other uses. Let me reiterate that the point of this paper is not to show that, one particular way of powering automobiles is best, but, to show that there are enough ways of keeping individual mobility in the advanced countries and for the backward countries to achieve it.
Cars powered by liquid-hydrogen-fueled internal combustion engines, with the hydrogen produced by nuclear power plants, electrolyzing water will suffice to preserve our mobility.
| environmental |
| 76 | SITARA2K6 | ABSTRACT: -
Green Engineering focuses on the design of materials, processes, systems, and devices with the objective of minimizing overall environmental impact (including energy utilization and waste production) throughout the entire life cycle of a product or process, from initial extraction of raw materials used in manufacture to ultimate disposal of materials that cannot be reused or recycled at the end of the useful life of a product.
Through this project, I have presented my idea of using Hydrogen as a source of fuel for a non-polluting and a completely eco-friendly environment. Proton Exchange Membrane (PEM) fuel cells are a proven technology as the astronauts in America used fuel cells to generate electricity since the 1960s, but more work is needed to make them cost-effective for use in cars, trucks, homes or businesses. Additional research and development is needed to spur rapid commercialization of these technologies so they can provide clean, domestically produced energy for transportation and other uses. Let me reiterate that the point of this paper is not to show that, one particular way of powering automobiles is best, but, to show that there are enough ways of keeping individual mobility in the advanced countries and for the backward countries to achieve it.
Cars powered by liquid-hydrogen-fueled internal combustion engines, with the hydrogen produced by nuclear power plants, electrolyzing water will suffice to preserve our mobility.
| environmental |
| 77 | SITARA2K6 | ABSTRACT: -
Green Engineering focuses on the design of materials, processes, systems, and devices with the objective of minimizing overall environmental impact (including energy utilization and waste production) throughout the entire life cycle of a product or process, from initial extraction of raw materials used in manufacture to ultimate disposal of materials that cannot be reused or recycled at the end of the useful life of a product.
Through this project, I have presented my idea of using Hydrogen as a source of fuel for a non-polluting and a completely eco-friendly environment. Proton Exchange Membrane (PEM) fuel cells are a proven technology as the astronauts in America used fuel cells to generate electricity since the 1960s, but more work is needed to make them cost-effective for use in cars, trucks, homes or businesses. Additional research and development is needed to spur rapid commercialization of these technologies so they can provide clean, domestically produced energy for transportation and other uses. Let me reiterate that the point of this paper is not to show that, one particular way of powering automobiles is best, but, to show that there are enough ways of keeping individual mobility in the advanced countries and for the backward countries to achieve it.
Cars powered by liquid-hydrogen-fueled internal combustion engines, with the hydrogen produced by nuclear power plants, electrolyzing water will suffice to preserve our mobility.
| environmental |
| 78 | AKASH SPACE SCIENCE AND ENGINE |
SUB-EFFECT OF JUNCKYARD ON OUR SPACE EXPLORATION
I HAVE MADE A MODEL ON SPACE SCIENCE WHICH WILL CLEAR THE JUNCKYARD IN SPACE.THERE ARE LOTS OF JUNCKYARD IN SPACE LIKE OSD SATELLITES AND THEIR PARTS,PLASTIC ITEMS,ETC.IT IS ALSO ACCEPTED BY THE SCIENTISTS OF NASA AND OTHER SPACE AGENCIES THAT THERE IS JUNCKYARD IN SPACE.THIS JUNCKYARD BECAME THE MAJOR CAUSE OF THE ACCIDENT OF "COLUMBIA" OR "STS-107" SPACESHIP IN WHICH OUR COUNTRY'S SPACE SCIENTIST "KALPANA CHAWLA" DIED AND YOU HAVE ALSO HEARD ABOUT THE BREAKING OF TILES OF "DISCOVERY"SPACESHIP,IN MY OPINION THESE TILES WERE BROKEN DUE TO THIS JUNCKYARD.THEREFORE WE DONOT WANT TO LOST ANOTHER SPACE SCIENTIST LIKE "KALPANA CHAWLA".
WHEN MY MODEL WILL SET UP IN SPACE IT WILL CLEAR THE JUNCKYARD OF SPACE.IT WILL CONACTED TO THE SPACE AGENCY AND SPACE STATION ANDF WHEN IT GET THE ORDER TO SET UP THE SATELLITE WHICH IS NOT WORKING INTO THE UPPER ORBIT IT STARTS WORKING.IT WILL WORK BY THE SOLAR ENERGY AS THE SOLAR PANNELS ARE FITTED IN IT. | earthspace |
| 79 | rechu's robo | WIRELESS LAN CONTROLLED MOBILE ROBOTIC VEHICLE WITH ARM
HOW IDEA STRUCK ME?
One day while I was walking through the suburb of my city, I saw some persons closing their nose beside a waste dumping yard. The removal of waste was carried out by a JCB vehicle, the operator of which was wearing a cloth mask to overcome the dirty smell coming out. Then I thought about a robotic vehicle to do that unfair job. Then I thought about a robotic vehicle remotely operated in order to carry out the unfair job smoothly while eliminating the operator. I discussed my idea with my father. He gave me some technological ideas, thereafter we contacted a guide for further development.
INTRODUTION
A robot is a defined as a mechanical device controlled by CPU which is used to reduce human effort. When compared to human robot, it is a programmed mechanism that can act as an untied worker. This project is also intended to reduce the man hold energy in reasonable places. I have designed this project to satisfy the modern needs with the help of advanced technology. It is specially intended to work in such places where humans can not exist so for. Specialty of this vehicle is that it can be controlled from a distant place using wireless LAN technology along with a web camera. In this project, I am attempting to incorporate the above features in a proto type working model, which will help us to work in such places like minefields, space, war field etc.
AIM
To develop a technology for robotic vehicle with arm and camera to implement it in a prototype working model.
CONCLUSION
Ever since the invention, mobile robotic arm vehicle has influenced our life style in ways more than one. Be it space explorations or in engineering expeditions, vehicles are in the forefront helping mankind. Most common feature in all these applications is direction finding. The aim is to build an autonomous robotic arm that can be used for the above said purpose.
| computerscience |
| 80 | RECHU'S ROBO | WIRELESS LAN CONTROLLED MOBILE ROBOTIC VEHICLE WITH ARM
HOW IDEA STRUCK ME?
One day while I was walking through the suburb of my city, I saw some persons closing their nose beside a waste dumping yard. The removal of waste was carried out by a JCB vehicle, the operator of which was wearing a cloth mask to overcome the dirty smell coming out. Then I thought about a robotic vehicle to do that unfair job. Then I thought about a robotic vehicle remotely operated in order to carry out the unfair job smoothly while eliminating the operator. I discussed my idea with my father. He gave me some technological ideas, thereafter we contacted a guide for further development.
INTRODUTION
A robot is a defined as a mechanical device controlled by CPU which is used to reduce human effort. When compared to human robot, it is a programmed mechanism that can act as an untied worker. This project is also intended to reduce the man hold energy in reasonable places. I have designed this project to satisfy the modern needs with the help of advanced technology. It is specially intended to work in such places where humans can not exist so for. Specialty of this vehicle is that it can be controlled from a distant place using wireless LAN technology along with a web camera. In this project, I am attempting to incorporate the above features in a proto type working model, which will help us to work in such places like minefields, space, war field etc.
AIM
To develop a technology for robotic vehicle with arm and camera to implement it in a prototype working model.
CONCLUSION
Ever since the invention, mobile robotic arm vehicle has influenced our life style in ways more than one. Be it space explorations or in engineering expeditions, vehicles are in the forefront helping mankind. Most common feature in all these applications is direction finding. The aim is to build an autonomous robotic arm that can be used for the above said purpose.
| computerscience |
| 81 | RECHU'S ROBO | WIRELESS LAN CONTROLLED MOBILE ROBOTIC VEHICLE WITH ARM
HOW IDEA STRUCK ME?
One day while I was walking through the suburb of my city, I saw some persons closing their nose beside a waste dumping yard. The removal of waste was carried out by a JCB vehicle, the operator of which was wearing a cloth mask to overcome the dirty smell coming out. Then I thought about a robotic vehicle to do that unfair job. Then I thought about a robotic vehicle remotely operated in order to carry out the unfair job smoothly while eliminating the operator. I discussed my idea with my father. He gave me some technological ideas, thereafter we contacted a guide for further development.
INTRODUTION
A robot is a defined as a mechanical device controlled by CPU which is used to reduce human effort. When compared to human robot, it is a programmed mechanism that can act as an untied worker. This project is also intended to reduce the man hold energy in reasonable places. I have designed this project to satisfy the modern needs with the help of advanced technology. It is specially intended to work in such places where humans can not exist so for. Specialty of this vehicle is that it can be controlled from a distant place using wireless LAN technology along with a web camera. In this project, I am attempting to incorporate the above features in a proto type working model, which will help us to work in such places like minefields, space, war field etc.
AIM
To develop a technology for robotic vehicle with arm and camera to implement it in a prototype working model.
CONCLUSION
Ever since the invention, mobile robotic arm vehicle has influenced our life style in ways more than one. Be it space explorations or in engineering expeditions, vehicles are in the forefront helping mankind. Most common feature in all these applications is direction finding. The aim is to build an autonomous robotic arm that can be used for the above said purpose.
| computerscience |
| 82 | AVOIDING ACCIDENTS IN HAIRPIN | AVOIDING ACCIDENTS IN HAIRPIN BENDS
AIM: This project of ours aims in avoiding accidents in hairpin bends.
We are thinking of using INFRA RED EMMITERS&SENSEORS on the both the sides of the road in one side of the hairpin bend,which will be emmiting and absorbing IR radiation and the entire system will be connected to a signal(Light), which will be on the other side of the bend.When a vehicle passes\crosses through this path(IR FIELD),these rays from emmiters to the receivers gets cutoff and the signal will blink. Thus the vehicle coming on the other side of the bend, will see this signal ,and will slow down and,accidents can be avoided.
| engineering |
| 83 | ZBQ | HGJ | computerscience |
| 84 | CBK | In recent times CCTV cameras have proved their worth in terms of helping to identify criminals, but most current systems are crude TV/VCR type devices which simply record video data but don't do anything more useful with that information. Typically people have to trawl through video tapes or digital images after an event has occurred in order to see significant details.
My project on Computer vision aims to automate these tasks. I have designed a software which is able to detect motion from a live feed over the internet, It is also able to detect people from the feed and to monitor there movements. Motion is detected by comparing the current frame with a template. Using Normalized RGB color space to phase out the differences due to lighting, areas in which motion is detected are marked. The Second Step in my step is to monitor human movement, this task is accomplished by using skin detection, The scene is first converted into Log Opponent (IRgBy ) color space and then areas in which IRgBy values lie within a certain range are classified as skin. Thus the software is able to differentiate between Objects (Car, Table etc.) and People.
The last Module of my project recognizes Hand Gestures, It could be used to control the location on cursor on the screen. It uses Skin detection Technique(Discussed above) to detect Hand from the web cam. Hand gestures are then converted into movement of the cursor.
Almost all of the Software is Programmed in Microsoft Visual BASIC.NET 2003 except the the component responsiblr to get live feeds from Earth Cam’s Network, it is programmed in Microsoft C#.
| computerscience |
| 85 | vignan | MAN HAD NEVER LANDED ON MOON
NEIL AMSTRONG WAS THE FIRST PERSON TO LAND ON THE MOON AND IT IS A ASSUMTION THAT HE HAD NEVER LANDED
ON MOON AND THERE ARE MANY PROOFS TO SAY ABOUT THIS
1) THE U.S FALG WAVING WERE THERE IS NO AIR ON THE MOON
2)THERE ARE NO BLAST CREATORS FORMED WHEN THE ROCKET ENGINE LANDED ON MOON WHERE IT IS A POWERFULL
ENGINE
3)SATRS ARE NOT VIISIBLE WHERE IT IS DEEP SPACE
4)SOUND OF THE ENGINE AND VOICE OF NEIL ARMSTRONG ARE HEARD VERY CLEARLY WHERE THERE IS NO MEDIUM ON
MOON
5)WHEN SPEED OF NEIL ARMSTRONG DOUBLED IT IS AS LIKE WALKING IN THE EARTH WHERE THE GRAVITATIONAL
FORCE MOON 1/6TH OF THE EARTH
6) THE IMAGE OF SUN WAS SEEN VERY CLARLY ON HIS HELMET BUT THE SUN IS BEHIND HIM WERE THERE IS ONLY ONE
SOURCE OF LIGHT ON MOON IT IS SUN
7)THE SHADOWS OF NEIL ARMSTRONG TAKEN FROM DIFFERENT SATILLITES ARE AT DIFFRENT DIRECTIONS AT SAME
INSTANT OF TIME
8)SAME TYPES OF BACK GROUNDS ARE FOUND ON THE MOON BUT PLACED THINGS WERE MISSING
9)NEIL ARMSTRONG HAD NO BURNS ON THE BODY INSPITE OF THE RADITIONS
10)THE SHAPE OF NEIL ARMSTRONG BODY WAS SEEN CLEAERLY EVEN AFTER PUTTING THE SIUT
11)THE PERSON WHO PREPARED THIS MACHINE SAYS THAT IT IS DESINED TO REACHE THE MOON BUT CANNOT LAND ON MOON
THERE ARE MAY OTHER PROOFS TO SAY THAT HE HAD NEVER LANDED ON MOON | earthspace |
| 86 | ravish kumar research | Studies on the Microporosity and Fractal Dimensions of the Activated Carbons prepared from Papaya Wood by Physical Process
Ravish Kumar
Deptt. Of Mechanical Engg.
Maulana Azad National Institute of Technology, Bhopal-462007, India
E-mail: ravishk@rediffmail.com
Abstract:
Agricultural and forest residues constitute an extraordinarily important source of precursors for the manufacture of activated carbons. Activated carbons are well known as the porous solids with a highly developed apparent surface area. In the present research activated carbon has been prepared from the forest residues of the papaya wood (a raw material that has not been studied till now) by the process of physical activation. Raw material has been carbonized between 573 and 1073 K and afterwards activated in air at temperatures between 623 and 823 K. The apparent surface area, micropore volume, mesopore volume, and fractal dimension have been calculated of the prepared samples. Thus the preparation of the activated carbons having high industrial applications from the forest wastes has been the research work conducted.
| chemistry |
| 87 | ravish kumar research |
Studies on the Microporosity and Fractal Dimensions of the Activated Carbons prepared from Papaya Wood by Physical Process
Agricultural and forest residues constitute an extraordinarily important source of precursors for the manufacture of activated carbons. Activated carbons are well known as the porous solids with a highly developed apparent surface area. In the present research activated carbon has been prepared from the forest residues of the papaya wood (a raw material that has not been studied till now) by the process of physical activation. Raw material has been carbonized between 573 and 1073 K and afterwards activated in air at temperatures between 623 and 823 K. The apparent surface area, micropore volume, mesopore volume, and fractal dimension have been calculated of the prepared samples. Thus the preparation of the activated carbons having high industrial applications from the forest wastes has been the research work conducted. | chemistry |
| 88 | RAVISH KUMAR RESEARCH |
Studies on the Microporosity and Fractal Dimensions of the Activated Carbons prepared from Papaya Wood by Physical Process
Agricultural and forest residues constitute an extraordinarily important source of precursors for the manufacture of activated carbons. Activated carbons are well known as the porous solids with a highly developed apparent surface area. In the present research activated carbon has been prepared from the forest residues of the papaya wood (a raw material that has not been studied till now) by the process of physical activation. Raw material has been carbonized between 573 and 1073 K and afterwards activated in air at temperatures between 623 and 823 K. The apparent surface area, micropore volume, mesopore volume, and fractal dimension have been calculated of the prepared samples. Thus the preparation of the activated carbons having high industrial applications from the forest wastes has been the research work conducted.
| chemistry |
| 89 | ESPENTA | VALVELESS PULSE JET RUN ON ECO FUELS
Our project is a valve less pulse jet engine run on eco fuels. It has no moving parts and we used CNG to run it. The unique aspect of our project has been that it contains no moving parts at all.
Our engine gives a very high thrust as compared to its weight. Also our engine is invulnerable to any kind of object ingested during working. This can also reduce maintenance costs
The various stages of the working of our project are
1. A mixture of air and fuel in the combustion chamber is ignited. The ignition source is a spark plug when starting but once running, the air-fuel mixture is ignited by residual hot gasses returning down the long exhaust tube.
2. The air-fuel mixture explodes and the expanding hot gasses start rushing out both pipes -- producing thrust (and much noise).
3. Like a weight tied to a piece of elastic, the inertia of the outgoing hot gasses causes the remaining gas in the pipe to be stretched beyond its normal volume -- creating a very low pressure inside the engine. As a result, the flow of gasses out of the engine stop and start to reverse.
4. Fresh air continues to be drawn in by the partial vacuum in the engine and fuel is also injected into the combustion chamber at the same time. Most of the air actually enters through the short (intake) pipe because it has less distance to travel. However, the longer pipe also now has a column of air (and residual exhaust gasses) rushing inwards. These two inflowing columns of air actually collide in the combustion chamber to compress the new air-fuel mixture. The cycle now repeats from step 1.
The Specifications of our engine are as follows
Max thrust.... 80
Maximum continuous (lbs)..... 75
Minimum idle (lbs)........... 7.5
Idle to mil. Max time (secs)... 0.1
Fuel/thrust (kg/kg/hr) ...... 0.45
Dry weight (kgs) ............. 10
The thrust of our engine can be increased by “THRUST AUGMENTORS”
These are little more than a cone-shaped tube placed a small distance from the exhaust(s) of the engine.
They work by recruiting extra (cool) fresh air by virtue of the venturi effect. This cool fresh air mixes with the hot exhaust gasses and, as a result, expands -- adding to the mass of air being propelled by the engine.
They effectively increase the thrust of our engine from 20-50% as per as conditions
| engineering |
| 90 | ESPENTA | VALVELESS PULSE JET RUN ON ECO FUELS
Our project is a valve less pulse jet engine run on eco fuels. It has no moving parts and we used CNG to run it. The unique aspect of our project has been that it contains no moving parts at all.
Our engine gives a very high thrust as compared to its weight. Also our engine is invulnerable to any kind of object ingested during working. This can also reduce maintenance costs
The various stages of the working of our project are
1. A mixture of air and fuel in the combustion chamber is ignited. The ignition source is a spark plug when starting but once running, the air-fuel mixture is ignited by residual hot gasses returning down the long exhaust tube.
2. The air-fuel mixture explodes and the expanding hot gasses start rushing out both pipes -- producing thrust (and much noise).
3. Like a weight tied to a piece of elastic, the inertia of the outgoing hot gasses causes the remaining gas in the pipe to be stretched beyond its normal volume -- creating a very low pressure inside the engine. As a result, the flow of gasses out of the engine stop and start to reverse.
4. Fresh air continues to be drawn in by the partial vacuum in the engine and fuel is also injected into the combustion chamber at the same time. Most of the air actually enters through the short (intake) pipe because it has less distance to travel. However, the longer pipe also now has a column of air (and residual exhaust gasses) rushing inwards. These two inflowing columns of air actually collide in the combustion chamber to compress the new air-fuel mixture. The cycle now repeats from step 1.
The Specifications of our engine are as follows
Max thrust.... 80
Maximum continuous (lbs)..... 75
Minimum idle (lbs)........... 7.5
Idle to mil. Max time (secs)... 0.1
Fuel/thrust (kg/kg/hr) ...... 0.45
Dry weight (kgs) ............. 10
The thrust of our engine can be increased by “THRUST AUGMENTORS”
These are little more than a cone-shaped tube placed a small distance from the exhaust(s) of the engine.
They work by recruiting extra (cool) fresh air by virtue of the venturi effect. This cool fresh air mixes with the hot exhaust gasses and, as a result, expands -- adding to the mass of air being propelled by the engine.
They effectively increase the thrust of our engine from 20-50% as per as conditions
| engineering |
| 91 | ESPENTA | VALVELESS PULSE JET RUN ON ECO FUELS
Our project is a valve less pulse jet engine run on eco fuels. It has no moving parts and we used CNG to run it. The unique aspect of our project has been that it contains no moving parts at all.
Our engine gives a very high thrust as compared to its weight. Also our engine is invulnerable to any kind of object ingested during working. This can also reduce maintenance costs
The various stages of the working of our project are
1. A mixture of air and fuel in the combustion chamber is ignited. The ignition source is a spark plug when starting but once running, the air-fuel mixture is ignited by residual hot gasses returning down the long exhaust tube.
2. The air-fuel mixture explodes and the expanding hot gasses start rushing out both pipes -- producing thrust (and much noise).
3. Like a weight tied to a piece of elastic, the inertia of the outgoing hot gasses causes the remaining gas in the pipe to be stretched beyond its normal volume -- creating a very low pressure inside the engine. As a result, the flow of gasses out of the engine stop and start to reverse.
4. Fresh air continues to be drawn in by the partial vacuum in the engine and fuel is also injected into the combustion chamber at the same time. Most of the air actually enters through the short (intake) pipe because it has less distance to travel. However, the longer pipe also now has a column of air (and residual exhaust gasses) rushing inwards. These two inflowing columns of air actually collide in the combustion chamber to compress the new air-fuel mixture. The cycle now repeats from step 1.
The Specifications of our engine are as follows
Max thrust.... 80
Maximum continuous (lbs)..... 75
Minimum idle (lbs)........... 7.5
Idle to mil. Max time (secs)... 0.1
Fuel/thrust (kg/kg/hr) ...... 0.45
Dry weight (kgs) ............. 10
The thrust of our engine can be increased by “THRUST AUGMENTORS”
These are little more than a cone-shaped tube placed a small distance from the exhaust(s) of the engine.
They work by recruiting extra (cool) fresh air by virtue of the venturi effect. This cool fresh air mixes with the hot exhaust gasses and, as a result, expands -- adding to the mass of air being propelled by the engine.
They effectively increase the thrust of our engine from 20-50% as per as conditions
| engineering |
| 92 | ESPENTA | VALVELESS PULSE JET RUN ON ECO FUELS
Our project is a valve less pulse jet engine run on eco fuels. It has no moving parts and we used CNG to run it. The unique aspect of our project has been that it contains no moving parts at all.
Our engine gives a very high thrust as compared to its weight. Also our engine is invulnerable to any kind of object ingested during working. This can also reduce maintenance costs
The various stages of the working of our project are
1. A mixture of air and fuel in the combustion chamber is ignited. The ignition source is a spark plug when starting but once running, the air-fuel mixture is ignited by residual hot gasses returning down the long exhaust tube.
2. The air-fuel mixture explodes and the expanding hot gasses start rushing out both pipes -- producing thrust (and much noise).
3. Like a weight tied to a piece of elastic, the inertia of the outgoing hot gasses causes the remaining gas in the pipe to be stretched beyond its normal volume -- creating a very low pressure inside the engine. As a result, the flow of gasses out of the engine stop and start to reverse.
4. Fresh air continues to be drawn in by the partial vacuum in the engine and fuel is also injected into the combustion chamber at the same time. Most of the air actually enters through the short (intake) pipe because it has less distance to travel. However, the longer pipe also now has a column of air (and residual exhaust gasses) rushing inwards. These two inflowing columns of air actually collide in the combustion chamber to compress the new air-fuel mixture. The cycle now repeats from step 1.
The Specifications of our engine are as follows
Max thrust.... 80
Maximum continuous (lbs)..... 75
Minimum idle (lbs)........... 7.5
Idle to mil. Max time (secs)... 0.1
Fuel/thrust (kg/kg/hr) ...... 0.45
Dry weight (kgs) ............. 10
The thrust of our engine can be increased by “THRUST AUGMENTORS”
These are little more than a cone-shaped tube placed a small distance from the exhaust(s) of the engine.
They work by recruiting extra (cool) fresh air by virtue of the venturi effect. This cool fresh air mixes with the hot exhaust gasses and, as a result, expands -- adding to the mass of air being propelled by the engine.
They effectively increase the thrust of our engine from 20-50% as per as conditions
| engineering |
| 93 | Thunder Falcons | VALVELESS PULSE JET RUN ON ECO FUELS
Our project is a valve less pulse jet engine run on eco fuels. It has no moving parts and we used CNG to run it. The unique aspect of our project has been that it contains no moving parts at all.
Our engine gives a very high thrust as compared to its weight. Also our engine is invulnerable to any kind of object ingested during working. This can also reduce maintenance costs
The various stages of the working of our project are
1. A mixture of air and fuel in the combustion chamber is ignited. The ignition source is a spark plug when starting but once running, the air-fuel mixture is ignited by residual hot gasses returning down the long exhaust tu |