26-02-2012, 12:03 PM
I am Bijendra kumar,studying "MCA" .I want to get synopsis about project title " STUDENT MANAGEMENT SYSTEM", IN JAVA.
I want to use FRONT END TOOL JAVA,and BACK END TOOL ORACLE.
I know java,but donot know "VB.NET".
26-02-2012, 12:03 PM
I am Bijendra kumar,studying "MCA" .I want to get synopsis about project title " STUDENT MANAGEMENT SYSTEM", IN JAVA. I want to use FRONT END TOOL JAVA,and BACK END TOOL ORACLE. I know java,but donot know "VB.NET".
21-04-2012, 09:33 AM
to get information about the topic "student management system " full report ppt and related topic refer the link bellow https://seminarproject.net/Thread-studen...ull-report https://seminarproject.net/Thread-studen...ort?page=6 https://seminarproject.net/Thread-studen...ort?page=3 https://seminarproject.net/Thread-studen...ort?page=7 https://seminarproject.net/Thread-studen...ort?page=5 https://seminarproject.net/Thread-studen...ort?page=4 https://seminarproject.net/Thread-studen...ent-system
29-09-2012, 04:29 PM
student management system STUDENT MANAGEMENT SYSTEM IN ASP.NET.docx (Size: 743.95 KB / Downloads: 73) ABSTRACT Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students. Our project includes • Student Registration • Subject Allocation • Branch selection • Semester wise selection. • Examination marks entry • Displaying branch and semester wise result. INTRODUCTION Student Management System is software which is helpful for students as well as the school authorities. In the current system all the activities are done manually. It is very time consuming and costly. Our Student Management System deals with the various activities related to the students. There are mainly 3 modules in this software • User module • Student Module • Mark management Module. In the Software we can register as a user and user has of two types, student and administrator. Administrator has the power to add new user and can edit and delete a user. A student can register as user and can add edit and delete his profile. The administrator can add edit and delete marks for the student. All the users can see the marks. SYSTEM ANALYSIS EXISTING SYSTEM: System Analysis is a detailed study of the various operations performed by a system and their relationships within and outside of the system. Here the key question is- what all problems exist in the present system? What must be done to solve the problem? Analysis begins when a user or manager begins a study of the program using existing system. During analysis, data collected on the various files, decision points and transactions handled by the present system. The commonly used tools in the system are Data Flow Diagram, interviews, etc. Training, experience and common sense are required for collection of relevant information needed to develop the system. The success of the system depends largely on how clearly the problem is defined, thoroughly investigated and properly carried out through the choice of solution. A good analysis model should provide not only the mechanisms of problem understanding but also the frame work of the solution. Thus it should be studied thoroughly by collecting data about the system. Then the proposed system should be analyzed thoroughly in accordance with the needs. PROPOSED SYSTEM In our proposed system we have the provision for adding the details of the students by themselves. So the overhead of the school authorities and the teachers is become less. Another advantage of the system is that it is very easy to edit the details of the student and delete a student when it found unnecessary. The marks of the student are added in the database and so students can also view the marks whenever they want. FEASIBILITY ANALYSIS Whatever we think need not be feasible .It is wise to think about the feasibility of any problem we undertake. Feasibility is the study of impact, which happens in the organization by the development of a system. The impact can be either positive or negative. When the positives nominate the negatives, then the system is considered feasible. Here the feasibility study can be performed in two ways such as technical feasibility and Economical Feasibility. Technical Feasibility: We can strongly says that it is technically feasible, since there will not be much difficulty in getting required resources for the development and maintaining the system as well. All the resources needed for the development of the software as well as the maintenance of the same is available in the organization here we are utilizing the resources which are available already. Economical Feasibility Development of this application is highly economically feasible .The organization needed not spend much money for the development of the system already available. The only thing is to be done is making an environment for the development with an effective supervision. If we are doing so, we can attain the maximum usability of the corresponding resources .Even after the development, the organization will not be in condition to invest more in the organization .Therefore, the system is economically feasible. Physical Design The purpose of Physical Design is to translate the logical design into a solution that can be implemented effectively, according to performance, administration and development process requirements. This physical view should correctly implement the desired system behavior while meeting the constraints imposed by the technology. In Physical Design, the perspective shifts from an abstraction of system behavior to an implementation of the behavior. Whereas the logical design is largely technology independent, physical design is necessarily tied to chosen set of technologies, these being the hardware and software on which the application will run. The aim of physical design is to specify how to build portioned applications from software components. The interaction of these components through defined interfaces results in the desired behavior of the system as a whole. The rules for communicating between components are defined by interaction standards: what a component does and how it communicates are major considerations in physical design. |
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