Born - 15 October 1931
Achievements - This eminent scientist and engineer has also served as the 11th President of India from the period 2002 to 2007. APJ Abdul Kalam is a man of vision, who is always full of ideas aimed at the development of the country. He firmly believes that India needs to play a more assertive role in international relations.
Apart from being a notable scientist and engineer, Dr APJ Abdul Kalam served as the 11th President of India from the period 2002 to 2007. He is a man of vision, who is always full of ideas aimed at the development of the country and is also often also referred to as the Missile Man of India. People loved and respected Dr APJ Abdul Kalam so much during his tenure as President that was popularly called the People's President. Read more about the biography of Dr APJ Abdul Kalam here.
APJ Abdul Kalam was born on 15 October 1931 at the South Indian state of Tamil Nadu and received honorary doctorates from about 30 universities globally. In the year 1981, the Government of India presented him the nation's highest civilian honor, the Padma Bhushan and then again, the Padma Vibhushan in 1990 and the Bharat Ratna in 1997. Before Kalam, there have been only two presidents - Sarvepalli Radhakrishnan and Zakir Hussain - to have received the Bharat Ratna before bring appointed to the highest office in India.
Read on about the life history of Dr APJ Abdul Kalam, who's also the first scientist and bachelor to occupy the seat of the Rashtrapati Bhavan. His perspectives on important topics have been enunciated by him in the book 'India 2020'. It highlights the action plans that will help develop the country into a knowledge superpower by the time 2020. One thing for which he received ample kudos is his unambiguous statement that India needs to play a more assertive role in international relations.
And Dr APJ Abdul Kalam regards his work on India's nuclear weapons program as a way to assert India's place as a future superpower. Even during his tenure as President, APJ Kalam took avid interest in the spheres of India's science and technology. He has even put forward a project plan for establishing bio-implants. He is also an ardent advocate of open source software over proprietary solutions to churn out more profits in the field of information technology in India.
APJ Abdul Kalam history
Born - 15 October 1931
Achievements - This eminent scientist and engineer has also served as the 11th President of India from the period 2002 to 2007. APJ Abdul Kalam is a man of vision, who is always full of ideas aimed at the development of the country. He firmly believes that India needs to play a more assertive role in international relations.
Apart from being a notable scientist and engineer, Dr APJ Abdul Kalam served as the 11th President of India from the period 2002 to 2007. He is a man of vision, who is always full of ideas aimed at the development of the country and is also often also referred to as the Missile Man of India. People loved and respected Dr APJ Abdul Kalam so much during his tenure as President that was popularly called the People's President. Read more about the biography of Dr APJ Abdul Kalam here.
APJ Abdul Kalam was born on 15 October 1931 at the South Indian state of Tamil Nadu and received honorary doctorates from about 30 universities globally. In the year 1981, the Government of India presented him the nation's highest civilian honor, the Padma Bhushan and then again, the Padma Vibhushan in 1990 and the Bharat Ratna in 1997. Before Kalam, there have been only two presidents - Sarvepalli Radhakrishnan and Zakir Hussain - to have received the Bharat Ratna before bring appointed to the highest office in India.
Read on about the life history of Dr APJ Abdul Kalam, who's also the first scientist and bachelor to occupy the seat of the Rashtrapati Bhavan. His perspectives on important topics have been enunciated by him in the book 'India 2020'. It highlights the action plans that will help develop the country into a knowledge superpower by the time 2020. One thing for which he received ample kudos is his unambiguous statement that India needs to play a more assertive role in international relations.
And Dr APJ Abdul Kalam regards his work on India's nuclear weapons program as a way to assert India's place as a future superpower. Even during his tenure as President, APJ Kalam took avid interest in the spheres of India's science and technology. He has even put forward a project plan for establishing bio-implants. He is also an ardent advocate of open source software over proprietary solutions to churn out more profits in the field of information technology in India.
Achievements - This eminent scientist and engineer has also served as the 11th President of India from the period 2002 to 2007. APJ Abdul Kalam is a man of vision, who is always full of ideas aimed at the development of the country. He firmly believes that India needs to play a more assertive role in international relations.
Apart from being a notable scientist and engineer, Dr APJ Abdul Kalam served as the 11th President of India from the period 2002 to 2007. He is a man of vision, who is always full of ideas aimed at the development of the country and is also often also referred to as the Missile Man of India. People loved and respected Dr APJ Abdul Kalam so much during his tenure as President that was popularly called the People's President. Read more about the biography of Dr APJ Abdul Kalam here.
APJ Abdul Kalam was born on 15 October 1931 at the South Indian state of Tamil Nadu and received honorary doctorates from about 30 universities globally. In the year 1981, the Government of India presented him the nation's highest civilian honor, the Padma Bhushan and then again, the Padma Vibhushan in 1990 and the Bharat Ratna in 1997. Before Kalam, there have been only two presidents - Sarvepalli Radhakrishnan and Zakir Hussain - to have received the Bharat Ratna before bring appointed to the highest office in India.
Read on about the life history of Dr APJ Abdul Kalam, who's also the first scientist and bachelor to occupy the seat of the Rashtrapati Bhavan. His perspectives on important topics have been enunciated by him in the book 'India 2020'. It highlights the action plans that will help develop the country into a knowledge superpower by the time 2020. One thing for which he received ample kudos is his unambiguous statement that India needs to play a more assertive role in international relations.
And Dr APJ Abdul Kalam regards his work on India's nuclear weapons program as a way to assert India's place as a future superpower. Even during his tenure as President, APJ Kalam took avid interest in the spheres of India's science and technology. He has even put forward a project plan for establishing bio-implants. He is also an ardent advocate of open source software over proprietary solutions to churn out more profits in the field of information technology in India.
java project - Image Enhancement Techchnology
Abstract:
The field of Digital Image Processing refers to processing digital images by means of digital computer. One of the main application areas in Digital Image Processing methods is to improve the pictorial information for human interpretation.
Most of the digital images contain noise. This can be removed by many enhancement techniques. Filtering is one of the enhancement techniques which is used to remove unwanted information (noise) from the image. It is also used for image sharpening and smoothening.
Some neighborhood operations work with the values of the image pixels in the neighborhood and the corresponding values of a sub image that has the same dimensions as the neighborhood. The sub image is called a “filter”.
click here to download this project
The field of Digital Image Processing refers to processing digital images by means of digital computer. One of the main application areas in Digital Image Processing methods is to improve the pictorial information for human interpretation.
Most of the digital images contain noise. This can be removed by many enhancement techniques. Filtering is one of the enhancement techniques which is used to remove unwanted information (noise) from the image. It is also used for image sharpening and smoothening.
Some neighborhood operations work with the values of the image pixels in the neighborhood and the corresponding values of a sub image that has the same dimensions as the neighborhood. The sub image is called a “filter”.
click here to download this project
java project - Image Enhancement Techchnology
Abstract:
The field of Digital Image Processing refers to processing digital images by means of digital computer. One of the main application areas in Digital Image Processing methods is to improve the pictorial information for human interpretation.
Most of the digital images contain noise. This can be removed by many enhancement techniques. Filtering is one of the enhancement techniques which is used to remove unwanted information (noise) from the image. It is also used for image sharpening and smoothening.
Some neighborhood operations work with the values of the image pixels in the neighborhood and the corresponding values of a sub image that has the same dimensions as the neighborhood. The sub image is called a “filter”.
click here to download this project
The field of Digital Image Processing refers to processing digital images by means of digital computer. One of the main application areas in Digital Image Processing methods is to improve the pictorial information for human interpretation.
Most of the digital images contain noise. This can be removed by many enhancement techniques. Filtering is one of the enhancement techniques which is used to remove unwanted information (noise) from the image. It is also used for image sharpening and smoothening.
Some neighborhood operations work with the values of the image pixels in the neighborhood and the corresponding values of a sub image that has the same dimensions as the neighborhood. The sub image is called a “filter”.
click here to download this project
java project - Graphical User Interafce
Abstract:
The ambition where to develop a fully functional GUI designer for Java. It was to be 100% cross platform compliant, fast and easy to use with "hidden" power features, such as keyboard shortcuts for all operations. The program will base it's structure on open standards and therefore have a strong foundation which easily can be extend. All code must be available to the public and based on the open source Gnu Public License.
The Gart must be easy to install and use. It will implement several quick start features which, makes it easy to start on new project without getting to many questions. It's very important that The Gart will not implement anything else then GUI features and that way avoid becoming a monster application using unnecessary time and resources.
By implementing all these features we hope The Gart will be an unique application and appeal to all levels of Java coders.
System Specification:
The system on which the project developed has the following configuration.
Hardware Specifications:
Main Memory : 64MB.
MicroProcessor : Pentium –III.
Hard Disk Drive : 4.3 GB.
Cache Memory : 512KB.
Software Specifications:
Operating System : Windows 98/NT.
Front End : Java Using Swings/AWT.
JAVA VERSION : JDK 1.6
click here to download this project
The ambition where to develop a fully functional GUI designer for Java. It was to be 100% cross platform compliant, fast and easy to use with "hidden" power features, such as keyboard shortcuts for all operations. The program will base it's structure on open standards and therefore have a strong foundation which easily can be extend. All code must be available to the public and based on the open source Gnu Public License.
The Gart must be easy to install and use. It will implement several quick start features which, makes it easy to start on new project without getting to many questions. It's very important that The Gart will not implement anything else then GUI features and that way avoid becoming a monster application using unnecessary time and resources.
By implementing all these features we hope The Gart will be an unique application and appeal to all levels of Java coders.
System Specification:
The system on which the project developed has the following configuration.
Hardware Specifications:
Main Memory : 64MB.
MicroProcessor : Pentium –III.
Hard Disk Drive : 4.3 GB.
Cache Memory : 512KB.
Software Specifications:
Operating System : Windows 98/NT.
Front End : Java Using Swings/AWT.
JAVA VERSION : JDK 1.6
click here to download this project
java project - Graphical User Interafce
Abstract:
The ambition where to develop a fully functional GUI designer for Java. It was to be 100% cross platform compliant, fast and easy to use with "hidden" power features, such as keyboard shortcuts for all operations. The program will base it's structure on open standards and therefore have a strong foundation which easily can be extend. All code must be available to the public and based on the open source Gnu Public License.
The Gart must be easy to install and use. It will implement several quick start features which, makes it easy to start on new project without getting to many questions. It's very important that The Gart will not implement anything else then GUI features and that way avoid becoming a monster application using unnecessary time and resources.
By implementing all these features we hope The Gart will be an unique application and appeal to all levels of Java coders.
System Specification:
The system on which the project developed has the following configuration.
Hardware Specifications:
Main Memory : 64MB.
MicroProcessor : Pentium –III.
Hard Disk Drive : 4.3 GB.
Cache Memory : 512KB.
Software Specifications:
Operating System : Windows 98/NT.
Front End : Java Using Swings/AWT.
JAVA VERSION : JDK 1.6
click here to download this project
The ambition where to develop a fully functional GUI designer for Java. It was to be 100% cross platform compliant, fast and easy to use with "hidden" power features, such as keyboard shortcuts for all operations. The program will base it's structure on open standards and therefore have a strong foundation which easily can be extend. All code must be available to the public and based on the open source Gnu Public License.
The Gart must be easy to install and use. It will implement several quick start features which, makes it easy to start on new project without getting to many questions. It's very important that The Gart will not implement anything else then GUI features and that way avoid becoming a monster application using unnecessary time and resources.
By implementing all these features we hope The Gart will be an unique application and appeal to all levels of Java coders.
System Specification:
The system on which the project developed has the following configuration.
Hardware Specifications:
Main Memory : 64MB.
MicroProcessor : Pentium –III.
Hard Disk Drive : 4.3 GB.
Cache Memory : 512KB.
Software Specifications:
Operating System : Windows 98/NT.
Front End : Java Using Swings/AWT.
JAVA VERSION : JDK 1.6
click here to download this project
java project - Distributed Cycle Minimization Protocol
Abstract:
In this project, we describe the Distributed Cycle Minimization Protocol (DCMP), a dynamic fully decentralized protocol that significantly reduces the duplicate messages by eliminating unnecessary cycles. As queries are transmitted through the peers, DCMP identifies the problematic paths and attempts to break the cycles while maintaining the connectivity of the network. In order to preserve the fault resilience and load balancing properties of unstructured P2P systems, DCMP avoids creating a hierarchical organization. Instead, it applies cycle elimination symmetrically around some powerful peers to keep the average path length small.
The overall structure is constructed fast with very low overhead. With the information collected during this process, distributed maintenance is performed efficiently even if peers quit the system without notification. The experimental results from our simulator and the prototype implementation on Planet Lab confirm that DCMP significantly improves the scalability of unstructured P2P systems without sacrificing their desirable properties. Moreover, due to its simplicity, DCMP can be easily implemented in various existing P2P systems and is orthogonal to the search algorithms.
click here to download this project
In this project, we describe the Distributed Cycle Minimization Protocol (DCMP), a dynamic fully decentralized protocol that significantly reduces the duplicate messages by eliminating unnecessary cycles. As queries are transmitted through the peers, DCMP identifies the problematic paths and attempts to break the cycles while maintaining the connectivity of the network. In order to preserve the fault resilience and load balancing properties of unstructured P2P systems, DCMP avoids creating a hierarchical organization. Instead, it applies cycle elimination symmetrically around some powerful peers to keep the average path length small.
The overall structure is constructed fast with very low overhead. With the information collected during this process, distributed maintenance is performed efficiently even if peers quit the system without notification. The experimental results from our simulator and the prototype implementation on Planet Lab confirm that DCMP significantly improves the scalability of unstructured P2P systems without sacrificing their desirable properties. Moreover, due to its simplicity, DCMP can be easily implemented in various existing P2P systems and is orthogonal to the search algorithms.
click here to download this project
java project - Distributed Cycle Minimization Protocol
Abstract:
In this project, we describe the Distributed Cycle Minimization Protocol (DCMP), a dynamic fully decentralized protocol that significantly reduces the duplicate messages by eliminating unnecessary cycles. As queries are transmitted through the peers, DCMP identifies the problematic paths and attempts to break the cycles while maintaining the connectivity of the network. In order to preserve the fault resilience and load balancing properties of unstructured P2P systems, DCMP avoids creating a hierarchical organization. Instead, it applies cycle elimination symmetrically around some powerful peers to keep the average path length small.
The overall structure is constructed fast with very low overhead. With the information collected during this process, distributed maintenance is performed efficiently even if peers quit the system without notification. The experimental results from our simulator and the prototype implementation on Planet Lab confirm that DCMP significantly improves the scalability of unstructured P2P systems without sacrificing their desirable properties. Moreover, due to its simplicity, DCMP can be easily implemented in various existing P2P systems and is orthogonal to the search algorithms.
click here to download this project
In this project, we describe the Distributed Cycle Minimization Protocol (DCMP), a dynamic fully decentralized protocol that significantly reduces the duplicate messages by eliminating unnecessary cycles. As queries are transmitted through the peers, DCMP identifies the problematic paths and attempts to break the cycles while maintaining the connectivity of the network. In order to preserve the fault resilience and load balancing properties of unstructured P2P systems, DCMP avoids creating a hierarchical organization. Instead, it applies cycle elimination symmetrically around some powerful peers to keep the average path length small.
The overall structure is constructed fast with very low overhead. With the information collected during this process, distributed maintenance is performed efficiently even if peers quit the system without notification. The experimental results from our simulator and the prototype implementation on Planet Lab confirm that DCMP significantly improves the scalability of unstructured P2P systems without sacrificing their desirable properties. Moreover, due to its simplicity, DCMP can be easily implemented in various existing P2P systems and is orthogonal to the search algorithms.
click here to download this project
java project - COMPUTER ASSISTED HUMAN RELATIONS TRACKING
Abstract:
This project is aimed at developing Computer Assisted Human Relations Tracking useful for applications developed in an organization. The Human Relations Tracking for Improving Human Relations is a web based application that can be accessed throught the organization. This system can be used for logging issues against an application/module, assigning issues to individuals and tracking the issues to resolution. There are features like email notifications, user maintenance, user access control, report generators etc in this system.
This system can be used as an application
for the any product based company to reduce the Issues in product’s quality and productivity. User logging should be able to upload the information of the user.
click here to download this project
This project is aimed at developing Computer Assisted Human Relations Tracking useful for applications developed in an organization. The Human Relations Tracking for Improving Human Relations is a web based application that can be accessed throught the organization. This system can be used for logging issues against an application/module, assigning issues to individuals and tracking the issues to resolution. There are features like email notifications, user maintenance, user access control, report generators etc in this system.
This system can be used as an application
for the any product based company to reduce the Issues in product’s quality and productivity. User logging should be able to upload the information of the user.
click here to download this project
java project - COMPUTER ASSISTED HUMAN RELATIONS TRACKING
Abstract:
This project is aimed at developing Computer Assisted Human Relations Tracking useful for applications developed in an organization. The Human Relations Tracking for Improving Human Relations is a web based application that can be accessed throught the organization. This system can be used for logging issues against an application/module, assigning issues to individuals and tracking the issues to resolution. There are features like email notifications, user maintenance, user access control, report generators etc in this system.
This system can be used as an application
for the any product based company to reduce the Issues in product’s quality and productivity. User logging should be able to upload the information of the user.
click here to download this project
This project is aimed at developing Computer Assisted Human Relations Tracking useful for applications developed in an organization. The Human Relations Tracking for Improving Human Relations is a web based application that can be accessed throught the organization. This system can be used for logging issues against an application/module, assigning issues to individuals and tracking the issues to resolution. There are features like email notifications, user maintenance, user access control, report generators etc in this system.
This system can be used as an application
for the any product based company to reduce the Issues in product’s quality and productivity. User logging should be able to upload the information of the user.
click here to download this project
java project- College Attendance System
Abstract:
The Project entitled "COLLEGE ATTENDANCE SYSTEM" is a application Software
developed in JAVA LANGUAGE using Java as front end on Pentium machine and MS Access as back end.
The main aim of "COLLEGE ATTENDANCE SYSTEM" is to improve the services of students and parents. It maintains the details attendance of students and also updating for the same. It also stores the details of various users of the colleges, personal information and exam details of the student.
The primary features of the project entitled “COLLEGE ATTENDANCE SYSTEM” are good design flexibility and easy availability for various users. And also it uses database tables.
CLICK here to download this project
The Project entitled "COLLEGE ATTENDANCE SYSTEM" is a application Software
developed in JAVA LANGUAGE using Java as front end on Pentium machine and MS Access as back end.
The main aim of "COLLEGE ATTENDANCE SYSTEM" is to improve the services of students and parents. It maintains the details attendance of students and also updating for the same. It also stores the details of various users of the colleges, personal information and exam details of the student.
The primary features of the project entitled “COLLEGE ATTENDANCE SYSTEM” are good design flexibility and easy availability for various users. And also it uses database tables.
CLICK here to download this project
java project- College Attendance System
Abstract:
The Project entitled "COLLEGE ATTENDANCE SYSTEM" is a application Software
developed in JAVA LANGUAGE using Java as front end on Pentium machine and MS Access as back end.
The main aim of "COLLEGE ATTENDANCE SYSTEM" is to improve the services of students and parents. It maintains the details attendance of students and also updating for the same. It also stores the details of various users of the colleges, personal information and exam details of the student.
The primary features of the project entitled “COLLEGE ATTENDANCE SYSTEM” are good design flexibility and easy availability for various users. And also it uses database tables.
CLICK here to download this project
The Project entitled "COLLEGE ATTENDANCE SYSTEM" is a application Software
developed in JAVA LANGUAGE using Java as front end on Pentium machine and MS Access as back end.
The main aim of "COLLEGE ATTENDANCE SYSTEM" is to improve the services of students and parents. It maintains the details attendance of students and also updating for the same. It also stores the details of various users of the colleges, personal information and exam details of the student.
The primary features of the project entitled “COLLEGE ATTENDANCE SYSTEM” are good design flexibility and easy availability for various users. And also it uses database tables.
CLICK here to download this project
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