This document provides a summary of a project on a Hospital Management System. It includes sections on the definition of a hospital and how a hospital management system works. It describes the need for an HMS including minimizing documentation and improving patient care. The document outlines the software requirements specification for the HMS including functional requirements like administration, patient, and billing modules. It provides details on the system design with data flow diagrams, entity relationship diagrams, class diagrams and use case diagrams. It concludes with discussing future enhancements and limitations.
This document provides an overview and requirements for developing a Hospital Management System. It describes collecting both primary and secondary data. Key objectives of the system are to computerize patient and hospital details, schedule appointments and services, update medical store inventory, handle test reports, and keep patient information up-to-date. The system will have modules for login, patients, doctors, billing, and generating reports. It will use a relational database with tables for patient, doctor, room, and bill details.
This document provides a software requirements specification for a Hospital Management System. It includes sections on the introduction, intended audience, product perspective, user classes and environment, functional requirements, and other non-functional requirements. The system will allow authorized users like administrators, doctors, nurses, and patients to access modules for management of hospital activities, patient records, appointments, billing, and more. It aims to automate paper-based hospital processes for improved efficiency, accuracy, and data security.
This document is a major project report submitted by Ranjit Singh for the development of a Hospital Management System using Java programming and a database. It includes an introduction describing the purpose, scope and relevant tools used. An overall description provides goals of the proposed system to manage patient, doctor and room records, billing, and user login details. A feasibility study evaluates the technical, economic, operational and schedule feasibility of the system. The report also includes sections on the entity relationship diagram, database and GUI design, implementation, testing, and conclusion.
The document describes a proposed hospital management system (HMS) that aims to automate and standardize a hospital's management processes. Currently, hospitals rely on manual paper-based systems that are inefficient and prone to errors. The HMS would control key information like patient data, schedules, and invoices electronically. It would make hospital management more efficient and reduce errors by standardizing data and ensuring integrity across information systems. The system design involves modules for registration, pharmacy, doctors, reception, laboratory, and discharge summaries. The technical requirements specify technologies like ASP.NET, C#, and SQL Server for development. UML diagrams including use cases, sequences, and classes are used for design. Data flow diagrams and entity-relationship diagrams model the
The purpose of the project entitled as “Hospital Management System” is to computerize the
Front Office Management of Hospital to develop software which is user friendly simple, fast,
and cost – effective. It deals with the collection of patient’s information like add patient, update
patient, delete patient, search patient, view patient diagnosis, etc. Traditionally, it was done
manually. The main function of the system is register and store patient details and doctor details
and retrieve these details as and when required, and also to manipulate these details
meaningfully. The Hospital Management System can be entered using a username and
password. It is accessible by an Admin, Doctor & Receptionist. Only they can add data into
the database. The data can be retrieved easily. The data are well protected for personal use and
makes the data processing very fast.
This document is a project report submitted by Aaditya Shah for his AISSCE examination in 2013-2014 on a Library Management System created under the guidance of Sanjay Parmar. The report includes a declaration by Aaditya Shah, an acknowledgement thanking those who supported the project, and a certificate signed by the principal and teacher confirming the project fulfillment. The report then provides an introduction to the Library Management System software created, an analysis of the existing manual library system and benefits of the proposed computerized system, a feasibility analysis, hardware and software requirements, descriptions of the system interface and design.
The document describes a hospital management system project created using Visual Basic 6.0. It includes 3 modules - admin, user (patient) and doctor modules. The admin can manage departments, users, doctors and view reports. Patients can view appointments, medications and history. Doctors can manage patient accounts. It discusses hardware requirements of Intel dual core processor and 512MB RAM and software requirements of Windows OS and MS Access database. Entity relationship and data flow diagrams are presented to illustrate the database and system design. The system aims to computerize hospital management for secure storage and fast retrieval of patient information.
The document provides a software requirement specification for a hospital management system. It outlines the purpose, scope, feasibility study conducted, definitions, acronyms, an overview, and specific requirements for the system. The specific requirements section describes the external interface requirements including the user interface, hardware interface, software interface and communication interface. It also describes the functional requirements covering administration, patient, lab, and billing modules. The performance, design constraints, and assumptions/dependencies are defined.
This document provides an overview and requirements for developing a Hospital Management System. It describes collecting both primary and secondary data. Key objectives of the system are to computerize patient and hospital details, schedule appointments and services, update medical store inventory, handle test reports, and keep patient information up-to-date. The system will have modules for login, patients, doctors, billing, and generating reports. It will use a relational database with tables for patient, doctor, room, and bill details.
This document provides a software requirements specification for a Hospital Management System. It includes sections on the introduction, intended audience, product perspective, user classes and environment, functional requirements, and other non-functional requirements. The system will allow authorized users like administrators, doctors, nurses, and patients to access modules for management of hospital activities, patient records, appointments, billing, and more. It aims to automate paper-based hospital processes for improved efficiency, accuracy, and data security.
This document is a major project report submitted by Ranjit Singh for the development of a Hospital Management System using Java programming and a database. It includes an introduction describing the purpose, scope and relevant tools used. An overall description provides goals of the proposed system to manage patient, doctor and room records, billing, and user login details. A feasibility study evaluates the technical, economic, operational and schedule feasibility of the system. The report also includes sections on the entity relationship diagram, database and GUI design, implementation, testing, and conclusion.
The document describes a proposed hospital management system (HMS) that aims to automate and standardize a hospital's management processes. Currently, hospitals rely on manual paper-based systems that are inefficient and prone to errors. The HMS would control key information like patient data, schedules, and invoices electronically. It would make hospital management more efficient and reduce errors by standardizing data and ensuring integrity across information systems. The system design involves modules for registration, pharmacy, doctors, reception, laboratory, and discharge summaries. The technical requirements specify technologies like ASP.NET, C#, and SQL Server for development. UML diagrams including use cases, sequences, and classes are used for design. Data flow diagrams and entity-relationship diagrams model the
The purpose of the project entitled as “Hospital Management System” is to computerize the
Front Office Management of Hospital to develop software which is user friendly simple, fast,
and cost – effective. It deals with the collection of patient’s information like add patient, update
patient, delete patient, search patient, view patient diagnosis, etc. Traditionally, it was done
manually. The main function of the system is register and store patient details and doctor details
and retrieve these details as and when required, and also to manipulate these details
meaningfully. The Hospital Management System can be entered using a username and
password. It is accessible by an Admin, Doctor & Receptionist. Only they can add data into
the database. The data can be retrieved easily. The data are well protected for personal use and
makes the data processing very fast.
This document is a project report submitted by Aaditya Shah for his AISSCE examination in 2013-2014 on a Library Management System created under the guidance of Sanjay Parmar. The report includes a declaration by Aaditya Shah, an acknowledgement thanking those who supported the project, and a certificate signed by the principal and teacher confirming the project fulfillment. The report then provides an introduction to the Library Management System software created, an analysis of the existing manual library system and benefits of the proposed computerized system, a feasibility analysis, hardware and software requirements, descriptions of the system interface and design.
The document describes a hospital management system project created using Visual Basic 6.0. It includes 3 modules - admin, user (patient) and doctor modules. The admin can manage departments, users, doctors and view reports. Patients can view appointments, medications and history. Doctors can manage patient accounts. It discusses hardware requirements of Intel dual core processor and 512MB RAM and software requirements of Windows OS and MS Access database. Entity relationship and data flow diagrams are presented to illustrate the database and system design. The system aims to computerize hospital management for secure storage and fast retrieval of patient information.
The document provides a software requirement specification for a hospital management system. It outlines the purpose, scope, feasibility study conducted, definitions, acronyms, an overview, and specific requirements for the system. The specific requirements section describes the external interface requirements including the user interface, hardware interface, software interface and communication interface. It also describes the functional requirements covering administration, patient, lab, and billing modules. The performance, design constraints, and assumptions/dependencies are defined.
The document provides an overview of a project report on a Hospital Management System. It includes an introduction describing the purpose and scope of the system. It then discusses the overall description, including goals, background on existing hospital processes, project requirements, user characteristics, and constraints. Finally, it analyzes the feasibility of the system from technical, economic, operational, and schedule perspectives. The system aims to automate hospital workflows and improve accuracy, reliability, and immediate access to information.
Medical Store Management System Software Engineering Projecthani2253
This document provides an overview of a medical store management system project. It describes the project title, objectives, features, scope, and deliverables. The project aims to automate the inventory, accounting, and customer management processes of a medical store to ease the workload. It will use a waterfall model and be developed in Java. Key features will include product, customer, sales, and payment management. The document outlines requirements, design, and implementation plans including user stories, data flow diagrams, and a work breakdown structure.
This document describes a project to develop a bank management system using Java. It includes sections on functional and non-functional requirements, code implementation with classes to handle new accounts, viewing details, deposits and withdrawals, and sample outputs/screenshots. The system allows customers to securely manage bank accounts online through a menu-driven interface that incorporates input validation, exception handling and other programming techniques.
This document describes a student management system (SMS) developed as an extension to the Hospital Management Information System (HMIS) to manage student records for dental students across government hospitals in Gujarat. The SMS allows for management of admission, fees payment, exam scheduling, result entry and generation of reports. It follows an iterative development approach and uses a multilayer architecture with layers for data, control, business and presentation. Various diagrams like use case, class, entity-relationship and data flow are provided to depict the system. Screenshots demonstrate modules for admission, fees, exam scheduling and results. The system aims to reduce paper work and efficiently manage student information and resources.
This document provides an overview of a hospital management system project developed using VB.NET and Microsoft SQL Server. The project aims to manage inpatient, outpatient, doctor, and employee records through modules for administration, patients, labs, and billing. Key modules allow inputting and viewing patient details for inpatient/outpatient care, generating lab reports, and calculating bills. The system is designed to help organize and maintain hospital operations through an easy-to-use interface and reporting capabilities. It runs on Windows 7 using VB.NET for the front-end, SQL Server 2005 for the back-end database, and requires 256MB RAM and 40GB hard disk space.
The document describes a proposed hospital management system that aims to digitize and improve upon an existing manual paper-based system. The proposed system would manage key information like patients, doctors, appointments, prescriptions, lab reports, and more in an efficient online manner. It consists of 6 main modules - administration, doctors, patients, reception, laboratories, and appointments. The system would use technologies like HTML, CSS, PHP, JavaScript, Bootstrap and store data in a MySQL database. It is intended to save time and resources over the current manual process.
This document provides an overview and requirements for developing a Hospital Management System. It describes collecting both primary and secondary data. Key objectives of the system are to computerize patient and hospital details, schedule appointments and services, update medical store inventory, handle test reports, and keep patient information up-to-date. The system will have modules for login, patients, doctors, billing, and generating reports. It will use a relational database with tables for patient, doctor, room, and bill details.
This is Just an overview how to present those slides which Describes Software Working....
its a General way of Representation....
Don't worry About Forms Shown inside...
Hospital Management System Project Report Sarfaraj Alam
The document provides an overview of a hospital management system project implemented using PHP. It discusses the various modules of the project including admin, user/patient, doctor, nurse, pharmacist, laboratories, and accountant modules. It also covers the requirements specification including hardware requirements of Intel dual-core processor, 1GB RAM, 80GB hard disk and software requirements of Windows 7/8/10, HTML, CSS, JavaScript, and MySQL database. The feasibility study and existing manual system are analyzed and the benefits of the proposed web-based system are outlined.
This document describes a student results management system that was developed as a web application to manage student results. It has three main modules: a registration/login module, an admin module, and a student module. The admin module allows administrators to create subjects, classes, add students and their results. The student module allows students to view and download their results. The proposed system aims to replace the manual process of managing student results and provide easier access for students to check their results and course information online. It reduces the time needed for students to access their results compared to the existing manual system.
This document outlines a banking management system project that includes maintaining customer accounts, deposits, withdrawals, currency conversion, and other banking tasks. The project supervisor is Ahmad Aslam and the group members are Chaudhry Sajid, Mohsin Riaz, Affan Shahzad, and Ebad Ur Rahman. The system provides customers access to create accounts, deposit and withdraw cash, and view account balances. Requirements include software like Oracle Database, hardware specifications, and functionalities like registration, transactions, inquiries, and administration. Diagrams show entity relationships and use cases. Code examples demonstrate queries and functionality.
This document provides a project report for developing a Hospital Management System. It includes requirements for key functions like patient registration, assigning patient IDs, generating reports on patient and bed information, and updating patient records in the database. The system is intended to automate manual paper-based processes currently used by the hospital. It will utilize web-based and MySQL database technologies with a Windows development environment.
Banking Management System Project documentationChaudhry Sajid
This document provides the full documentation for a bank management system project. It contains sections on the table of contents, acknowledgments, declarations, project overview, abstract, introduction to SQL and database concepts, product overview, requirements, design and architecture, implementation details, additional features, main code, user guide and conclusion. It was created by four students for their class project and submitted to their project supervisor for review. The document outlines the purpose and functionality of the bank management system they developed using Oracle Database software on a Windows operating system.
This document is a project report for an Automation Management System created by two students to fulfill their degree requirements. It includes sections on the problem statement, process model used, requirements analysis including questionnaires and interviews, data flow diagrams, a data dictionary, use cases, effort estimation, a timeline chart, risk table, architectural design, and testing approach. The problem is that the current manual system is slow and error-prone, so the project aims to develop a computerized system to automate the management processes, make them faster and easier to use, and reduce paperwork. A waterfall process model is used. The requirements analysis covers information gathering and specification of functional and non-functional requirements.
The document describes a major project report submitted by Jagjeet Suryawanshi and Lavkush Patkar for their Bachelor of Technology degree. It includes declarations, certificates of approval, an abstract, acknowledgements, and outlines the various chapters that will be included in the project report such as introduction, analysis, methodology, design and implementation, implementation and testing, user manual, and conclusions. The project is on developing an E-Healthcare system under the guidance of Dr. Umesh Banodha.
This topic is covered under Data modelling and implementation. This project looks after an efficient billing management in a medical store. it includes a flow chart, data flow diagram, normalization etc.
The project “Billing system” is an application to automate the process of ordering
And billing of a restaurant .This application is developed for the established restaurants in the city to manage the billing operations. It has the entire basic module to operate the billing modules. This application also administrates its users and customers.
This project will serve the following objectives:-
• Add and maintain records of available products.
• Add and maintain customer details.
• Add and maintain description of new products.
• Add and maintain admin and employee details.
• Provides a convenient solution of billing pattern.
• Make an easy to use environment for users and customers.
• Create membership for customers.
This is Pharmacy Management System report for the project of Final Year Degree of Information Technology with Accounting Under State University Of Zanzibar.
This document provides an overview of a hospital management system project developed using VB.NET and Microsoft SQL Server. The project aims to manage inpatient, outpatient, doctor, and employee records through modules for administration, patients, labs, and billing. Key modules allow inputting and viewing patient details for inpatient/outpatient care, generating lab reports, and calculating bills. The system is a web-based ASP.NET application designed to organize and streamline operations at hospitals.
The document provides an overview of a project report on a Hospital Management System. It includes an introduction describing the purpose and scope of the system. It then discusses the overall description, including goals, background on existing hospital processes, project requirements, user characteristics, and constraints. Finally, it analyzes the feasibility of the system from technical, economic, operational, and schedule perspectives. The system aims to automate hospital workflows and improve accuracy, reliability, and immediate access to information.
Medical Store Management System Software Engineering Projecthani2253
This document provides an overview of a medical store management system project. It describes the project title, objectives, features, scope, and deliverables. The project aims to automate the inventory, accounting, and customer management processes of a medical store to ease the workload. It will use a waterfall model and be developed in Java. Key features will include product, customer, sales, and payment management. The document outlines requirements, design, and implementation plans including user stories, data flow diagrams, and a work breakdown structure.
This document describes a project to develop a bank management system using Java. It includes sections on functional and non-functional requirements, code implementation with classes to handle new accounts, viewing details, deposits and withdrawals, and sample outputs/screenshots. The system allows customers to securely manage bank accounts online through a menu-driven interface that incorporates input validation, exception handling and other programming techniques.
This document describes a student management system (SMS) developed as an extension to the Hospital Management Information System (HMIS) to manage student records for dental students across government hospitals in Gujarat. The SMS allows for management of admission, fees payment, exam scheduling, result entry and generation of reports. It follows an iterative development approach and uses a multilayer architecture with layers for data, control, business and presentation. Various diagrams like use case, class, entity-relationship and data flow are provided to depict the system. Screenshots demonstrate modules for admission, fees, exam scheduling and results. The system aims to reduce paper work and efficiently manage student information and resources.
This document provides an overview of a hospital management system project developed using VB.NET and Microsoft SQL Server. The project aims to manage inpatient, outpatient, doctor, and employee records through modules for administration, patients, labs, and billing. Key modules allow inputting and viewing patient details for inpatient/outpatient care, generating lab reports, and calculating bills. The system is designed to help organize and maintain hospital operations through an easy-to-use interface and reporting capabilities. It runs on Windows 7 using VB.NET for the front-end, SQL Server 2005 for the back-end database, and requires 256MB RAM and 40GB hard disk space.
The document describes a proposed hospital management system that aims to digitize and improve upon an existing manual paper-based system. The proposed system would manage key information like patients, doctors, appointments, prescriptions, lab reports, and more in an efficient online manner. It consists of 6 main modules - administration, doctors, patients, reception, laboratories, and appointments. The system would use technologies like HTML, CSS, PHP, JavaScript, Bootstrap and store data in a MySQL database. It is intended to save time and resources over the current manual process.
This document provides an overview and requirements for developing a Hospital Management System. It describes collecting both primary and secondary data. Key objectives of the system are to computerize patient and hospital details, schedule appointments and services, update medical store inventory, handle test reports, and keep patient information up-to-date. The system will have modules for login, patients, doctors, billing, and generating reports. It will use a relational database with tables for patient, doctor, room, and bill details.
This is Just an overview how to present those slides which Describes Software Working....
its a General way of Representation....
Don't worry About Forms Shown inside...
Hospital Management System Project Report Sarfaraj Alam
The document provides an overview of a hospital management system project implemented using PHP. It discusses the various modules of the project including admin, user/patient, doctor, nurse, pharmacist, laboratories, and accountant modules. It also covers the requirements specification including hardware requirements of Intel dual-core processor, 1GB RAM, 80GB hard disk and software requirements of Windows 7/8/10, HTML, CSS, JavaScript, and MySQL database. The feasibility study and existing manual system are analyzed and the benefits of the proposed web-based system are outlined.
This document describes a student results management system that was developed as a web application to manage student results. It has three main modules: a registration/login module, an admin module, and a student module. The admin module allows administrators to create subjects, classes, add students and their results. The student module allows students to view and download their results. The proposed system aims to replace the manual process of managing student results and provide easier access for students to check their results and course information online. It reduces the time needed for students to access their results compared to the existing manual system.
This document outlines a banking management system project that includes maintaining customer accounts, deposits, withdrawals, currency conversion, and other banking tasks. The project supervisor is Ahmad Aslam and the group members are Chaudhry Sajid, Mohsin Riaz, Affan Shahzad, and Ebad Ur Rahman. The system provides customers access to create accounts, deposit and withdraw cash, and view account balances. Requirements include software like Oracle Database, hardware specifications, and functionalities like registration, transactions, inquiries, and administration. Diagrams show entity relationships and use cases. Code examples demonstrate queries and functionality.
This document provides a project report for developing a Hospital Management System. It includes requirements for key functions like patient registration, assigning patient IDs, generating reports on patient and bed information, and updating patient records in the database. The system is intended to automate manual paper-based processes currently used by the hospital. It will utilize web-based and MySQL database technologies with a Windows development environment.
Banking Management System Project documentationChaudhry Sajid
This document provides the full documentation for a bank management system project. It contains sections on the table of contents, acknowledgments, declarations, project overview, abstract, introduction to SQL and database concepts, product overview, requirements, design and architecture, implementation details, additional features, main code, user guide and conclusion. It was created by four students for their class project and submitted to their project supervisor for review. The document outlines the purpose and functionality of the bank management system they developed using Oracle Database software on a Windows operating system.
This document is a project report for an Automation Management System created by two students to fulfill their degree requirements. It includes sections on the problem statement, process model used, requirements analysis including questionnaires and interviews, data flow diagrams, a data dictionary, use cases, effort estimation, a timeline chart, risk table, architectural design, and testing approach. The problem is that the current manual system is slow and error-prone, so the project aims to develop a computerized system to automate the management processes, make them faster and easier to use, and reduce paperwork. A waterfall process model is used. The requirements analysis covers information gathering and specification of functional and non-functional requirements.
The document describes a major project report submitted by Jagjeet Suryawanshi and Lavkush Patkar for their Bachelor of Technology degree. It includes declarations, certificates of approval, an abstract, acknowledgements, and outlines the various chapters that will be included in the project report such as introduction, analysis, methodology, design and implementation, implementation and testing, user manual, and conclusions. The project is on developing an E-Healthcare system under the guidance of Dr. Umesh Banodha.
This topic is covered under Data modelling and implementation. This project looks after an efficient billing management in a medical store. it includes a flow chart, data flow diagram, normalization etc.
The project “Billing system” is an application to automate the process of ordering
And billing of a restaurant .This application is developed for the established restaurants in the city to manage the billing operations. It has the entire basic module to operate the billing modules. This application also administrates its users and customers.
This project will serve the following objectives:-
• Add and maintain records of available products.
• Add and maintain customer details.
• Add and maintain description of new products.
• Add and maintain admin and employee details.
• Provides a convenient solution of billing pattern.
• Make an easy to use environment for users and customers.
• Create membership for customers.
This is Pharmacy Management System report for the project of Final Year Degree of Information Technology with Accounting Under State University Of Zanzibar.
This document provides an overview of a hospital management system project developed using VB.NET and Microsoft SQL Server. The project aims to manage inpatient, outpatient, doctor, and employee records through modules for administration, patients, labs, and billing. Key modules allow inputting and viewing patient details for inpatient/outpatient care, generating lab reports, and calculating bills. The system is a web-based ASP.NET application designed to organize and streamline operations at hospitals.
Hospitals currently use a manual system for visiting Doctor Slip as a token. The current system
requires numerous paper forms, with data stores spread throughout the hospital management infrastructure.
Often information (on forms) is incomplete, or does not follow management standards. Forms are often lost
in transit between departments requiring a comprehensive auditing process to ensure that no vital
information is lost. Multiple copies of the same information exist in the hospital and may lead to
inconsistencies in data in various data stores.
A significant part of the operation of any hospital involves the acquisition, management and timely
retrieval of great volumes of information. This information typically involves; Doctor, Room, Department
and Patient personal Information. All of this information must be managed in an efficient and cost wise
fashion so that an institution's resources may be effectively utilized Hospital E-Token management will
automate the management of the hospital making it more efficient and error free for outdoor patient. It aims
at standardizing data, consolidating data ensuring data integrity and reducing inconsistencies.
This document provides a summary of the requirements for a Hospital Management System software project. It outlines several key sections and modules of the software, including patient registration and records, a human resources module, accounting and inventory tracking. The system is intended to automate all operations of a hospital and provide relevant information to doctors, administrators, and other users. It will integrate various aspects of hospital management and replace manual record keeping. The document describes the intended users, system dependencies, interface requirements, and overall features and modules of the hospital management system.
The document provides an overview of an "Electronic Medical Regulation System" project. It includes sections on the introduction, objectives, modules, features, feasibility analysis, need and significance, system model, methodology, and required facilities and bibliography. The main goal is to build a management tool to easily track patient, staff, treatment, and billing information to analyze reports. It aims to reduce time compared to a manual system by accurately maintaining inpatient and outpatient records.
The document discusses software engineering and various related topics. It begins by defining software and engineering, and describing the software development process. It then covers essential software attributes, application domains, and how software engineering is a layered technology. The document also discusses professional software development, the software engineering practice, ethics and principles. It provides three case studies on different types of software systems. Finally, it examines software processes and process models like waterfall, iterative, evolutionary and Rational Unified Process.
The document proposes a hospital management system to automate the manual paper-based system currently used. It aims to standardize data, consolidate records, ensure data integrity and reduce inconsistencies. The system would manage patient information, staff details, schedules and other facilities digitally. It faces challenges in designing and implementing the new system, and maintaining it going forward to address errors, adapt to changes and allow for enhancements. The system requirements include user interfaces, hardware and software needs, and communication protocols to allow the system to work across platforms and browsers. It is concluded that the automated system would improve efficiency, provide a friendly interface, enable easy access and updating of information, and offer security and reliability benefits over the existing manual process.
This document outlines the scope and objectives of an online patient treatment system project. It discusses conducting a feasibility study that covers financial, technical, resource, time, economic, behavioral, operational, and risk considerations. It also outlines the deliverables, which will include use case, ER, sequence, class, state machine, object, and activity diagrams, as well as testing. The system aims to provide online treatment and medical records, timely patient care, a doctor directory, and automated processes to help patients in remote areas access healthcare.
Bus Information Live Monitoring System software is a globally deployable, integrated, workflow based end-to-end system starting from searching bus routes to gathering entering details of the BUS. This is a complete application for Students as well as Transportation Staff. Vendors provide the information like, available routes, timings, etc. Students will have facility to view all the BUS details under college transportation. There is also scope to measure the user satisfaction regarding the BUS selection.
UPHAR (Universal Patient Hospital and Administration Registry)IRJET Journal
The document describes a hospital management system called UPHAR that was developed to optimize hospital management through features like appointment booking, medicine prediction, and an incident management system. It discusses the technologies used in developing the system, the system design including use case diagrams and data flow diagrams, and concludes that the system allows for easier patient treatment and management of medicine stock compared to previous methods.
This document provides an overview and requirements for developing a Hospital Management System. It describes collecting both primary and secondary data. Key objectives of the system are to computerize patient and hospital details, schedule appointments and services, update medical store inventory, handle test reports, and keep patient information up-to-date. The system will have modules for login, patients, doctors, billing, and generating reports. It will use a relational database with tables for patient, doctor, room, and bill details.
This document summarizes a student project to develop a web-based hospital management system. The system would allow patients to register online and manage appointments, medical records, and billing. It would also help hospital staff schedule doctors, track bed availability, and manage medical equipment. The project aims to make hospital processes more efficient by reducing paperwork and improving access to patient information. The system would be built using technologies like .NET, HTML, and CSS for the user interface connected to a back-end Microsoft Access database. It would include modules for administration, doctors, nurses, and employees. Algorithms like FIFO would be used to manage patient queues. The goals are to save time, reduce errors, and improve communication across the hospital through online
This project report describes the development of a Hospital Management System. The system allows hospitals to automate processes like maintaining patient records, generating prescriptions and bills, and providing test reports. It includes functionality for indoor and outdoor patients. The system aims to improve organization, accuracy, reliability and immediate retrieval/storage of information compared to a manual system. It was developed using VB 6.0 with an MS Access backend database.
This is the sea file for health Guide management system, you will calculate your bmi index then , go for the health Guide according to your bmi results.this project file is important for access the required code of bmi project.
Medical Store Management System Software Engineering 1hani2253
This document outlines a medical store management system project created by three students. The project aims to automate the manual record keeping process of a medical store. Key features of the software include inventory management, accounting, customer management, and reporting. The document discusses the scope, objectives, drawbacks of the current system, and deliverables of the project. It also covers the system requirements, design approach, implementation details, and user documentation.
Health Prediction System - an Artificial Intelligence Project 2015Maruf Abdullah (Rion)
This document proposes the development of a health prediction system that allows users to get guidance on health issues through an online intelligent healthcare system. It will include features like patient and doctor registration and login, disease prediction based on entered symptoms, doctor search, and admin functions like adding doctors and diseases. The system will use data mining techniques to predict illnesses based on entered symptoms. It will provide a way for patients to get medical advice online when doctors are unavailable. The proposal outlines the requirements, workflow, advantages and disadvantages of the system.
The document describes a proposed hospital management system (HMS) software. The HMS aims to computerize operations in hospitals by efficiently storing patient information. It seeks to address limitations of current paper-based systems which are slow and cannot quickly provide updated patient lists. The key functionality of the HMS includes patient registration and admission, in-patient management, appointment scheduling with SMS reminders, billing, customer relationship management, revenue management, and reporting. The software will use SQL Server for data storage and Developer Express for debugging support and interface development. It consists of several modules including reservation, reports, payments, clinics, and users. The software was thoroughly tested to address errors.
The document outlines the phases and methodology for developing a Health Center Management System software project. It includes requirement analysis, design, development, coding, and testing phases. It then describes the key modules of the system, which are registration, drug stores, case records, and daily entries. Each module and associated submodules are explained in terms of their purpose and functions within the overall system.
This document provides an overview of the project for developing an employee leave management system. It describes the existing manual system and outlines the key functionalities of the proposed automated system, including features like leave application workflows, balance tracking, and reporting. The document then covers various aspects of analyzing and developing the system, including studying user needs, designing inputs and outputs, justifying use of the spiral model for development, and describing the system design, testing, and security implementation processes.
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- students will be able to identify and name various types of ornamental plants commonly used in landscaping and decoration, classifying them based on their characteristics such as foliage, flowering, and growth habits. They will understand the ecological, aesthetic, and economic benefits of ornamental plants, including their roles in improving air quality, providing habitats for wildlife, and enhancing the visual appeal of environments. Additionally, students will demonstrate knowledge of the basic requirements for growing ornamental plants, ensuring they can effectively cultivate and maintain these plants in various settings.
8+8+8 Rule Of Time Management For Better ProductivityRuchiRathor2
This is a great way to be more productive but a few things to
Keep in mind:
- The 8+8+8 rule offers a general guideline. You may need to adjust the schedule depending on your individual needs and commitments.
- Some days may require more work or less sleep, demanding flexibility in your approach.
- The key is to be mindful of your time allocation and strive for a healthy balance across the three categories.
The Science of Learning: implications for modern teachingDerek Wenmoth
Keynote presentation to the Educational Leaders hui Kōkiritia Marautanga held in Auckland on 26 June 2024. Provides a high level overview of the history and development of the science of learning, and implications for the design of learning in our modern schools and classrooms.
Information and Communication Technology in EducationMJDuyan
(𝐓𝐋𝐄 𝟏𝟎𝟎) (𝐋𝐞𝐬𝐬𝐨𝐧 2)-𝐏𝐫𝐞𝐥𝐢𝐦𝐬
𝐄𝐱𝐩𝐥𝐚𝐢𝐧 𝐭𝐡𝐞 𝐈𝐂𝐓 𝐢𝐧 𝐞𝐝𝐮𝐜𝐚𝐭𝐢𝐨𝐧:
Students will be able to explain the role and impact of Information and Communication Technology (ICT) in education. They will understand how ICT tools, such as computers, the internet, and educational software, enhance learning and teaching processes. By exploring various ICT applications, students will recognize how these technologies facilitate access to information, improve communication, support collaboration, and enable personalized learning experiences.
𝐃𝐢𝐬𝐜𝐮𝐬𝐬 𝐭𝐡𝐞 𝐫𝐞𝐥𝐢𝐚𝐛𝐥𝐞 𝐬𝐨𝐮𝐫𝐜𝐞𝐬 𝐨𝐧 𝐭𝐡𝐞 𝐢𝐧𝐭𝐞𝐫𝐧𝐞𝐭:
-Students will be able to discuss what constitutes reliable sources on the internet. They will learn to identify key characteristics of trustworthy information, such as credibility, accuracy, and authority. By examining different types of online sources, students will develop skills to evaluate the reliability of websites and content, ensuring they can distinguish between reputable information and misinformation.
How to Create User Notification in Odoo 17Celine George
This slide will represent how to create user notification in Odoo 17. Odoo allows us to create and send custom notifications on some events or actions. We have different types of notification such as sticky notification, rainbow man effect, alert and raise exception warning or validation.
CapTechTalks Webinar Slides June 2024 Donovan Wright.pptxCapitolTechU
Slides from a Capitol Technology University webinar held June 20, 2024. The webinar featured Dr. Donovan Wright, presenting on the Department of Defense Digital Transformation.
2. HOSPITAL
A hospital is a health care institution providing patient treatment with specialized
staff and equipment. Hospitals are usually funded by public sector by health
organisations (for profit or non-profit), by health insurance companies, or by
charities, including direct charitable donations. Hospitals have a range of
departments (e.g., surgery, and urgent care etc).
HOSPITAL MANAGEMENT SYSTEM
A hospital management system is an information system that manages the aspects
of a hospital. This may include the administrative, financial, and medical
processing. It is an integrated end-to-end Hospital Management System that
provides relevant information across the hospital to support effective decision
making for patient care, hospital administration and critical financial accounting, in
a seamless flow. This program can look after Inpatients, OPD patients, records,
database treatments, status illness, billings etc. it also maintains their hospital info
such as ward id, Doctor in Charge, Department administering etc. Now with a
laboratory module to handle all lab operations...!!! Not only has this it also looked
after doctor and staff records and payments. Now with advanced features like LAN
connectivity, ICD10 disease database, Webcam support.
NEED OF HMS
1. Minimized documentation and no duplication of records.
2. Reduced paper work.
3. Improved Patient Care
4. Better Administration Control
5. Faster information flow between various departments
6. Smart Revenue Management
7. Effective billing of various services
8. Exact stock information
3. Software Requirement Specification (SRS)
A Software requirements specification (SRS), a requirements specification for a
software system, is a complete description of the behavior of a system to be
developed and may include a set of use cases that describe interactions the users will
have with the software. In addition it also contains non-functional requirements.
Non-functional requirements impose constraints on the design or implementation
(such as performance engineering requirements, quality standards, or design
constraints).
1. Introduction
The SRS is produced at the culmination of the analysis task. The function and
performance allocated to software as part of the system engineering and refined by
establishing a complete information description, a detailed functional description, a
representation of system behavior, indication of performance requirements and
design constrains, appropriate validation criteria and the other information related to
requirements.
The SRS is technical specification of requirement of Hospital
Management system. This specification describes what the proposed system should
do without describing how it will do it. It also describes complete external behavior
of proposed system.
1.1. Purpose:-
The main purpose of our system is to make hospital task easy and is to develop
software that replaces the manual hospital system into automated hospital
management system. This document serves as the unambiguous guide for the
developers of this software system.
1.2. Scope:-
The document only covers the requirement specification for the hospital
management system. This document does not provide any references to the other
component of the hospital management system. All the external interfaces and the
dependencies are also identified in this document.
4. 1.3. Feasibility Study:-
The overall scope of the feasibility study was to provide sufficient information
to allow a decision to be made as to whether the hospital management system project
should proceed and so, its relative priority in the context of the other existing hospital
management system.
The feasibility study of this project had undergone through various steps
which as describe as under:
a) Identify the origin of the information at different level.
b) Identify the expectation of user from computerized system.
c) Analyze the drawback of existing system.
1.4. Definition , Acronyms , Abbreviations:-
CFD: - Context Flow Diagram
DFD: - Data Flow Diagram
IDE: - Integrated Development Environment
C++:-Platform Independent And Object_oriented programming language
SRS: - Software Requirement Specification.
1.5. Reference:-
1) An integrated approach to software engineering, Third edition by Pankaj
Jalote
2) OOP in C++ – E Balaguruswamy
3) Software engineering By Ian Sommerville
1.6. Overview:-
Hospital Management System is a process of implementing all the activities
of the hospital in a computerized automated way to fasten the performance.
5. This project is to maintain the patient details, lab reports and to calculate the
bill of the patient. You can also manually edit any patient details and issue bill receipt
to patient within few seconds.
2. OVERALL DESCRIPTION
2.1. Product perspectives:-
This project gives the procedural approach how a patient gets treatment,
details about date of treatment and finally depending on different criteria like room
allocated, lab reports, treatment and medicine taken…..etc,how billing is calculated.
During billing health card facility is also considered.
2.2. Product Function:-
The data represented in hospital management application will perform the
following major function:-
Patient Details: - It includes inpatient and outpatient details.
Tasks:- It includes the various tasks which are used in hospital
Billing Details:-This software will help to calculate the bill much quicker and
simpler way. This enables the organization to keep the information in efficient
and systematic way.
2.3. User Characteristics:-
This software is developed such that total appearance of the product to make it more
user friendly. The operator will be provided with login id and password. General
users with basic computer skills can use this software.
2.4. General Constraints:-
Any update regarding the patient’s information from the hospital are to be
recorded to have updated and correct values.
6. 2.5. Assumption and Dependencies:-
All the data entered will be correct and up to date. This software package is
developed using java as front end which is supported by sun micro system, MS SQL
server 2005 as the back end which is supported by Microsoft windows XP.
3. SPECIFIC REQUIREMENTS
It describes all the details that the software developer need to know for designing
and developing the system. This is typically the largest and most important part of
the document.
3.1. External Interface Requirements:-
3.1.1. User Interface:-
User interface is designed in a user friendly manner and the user, in
another end he has to give the order, for that he will interface with keyboard and
mouse.
3.1.2. Hardware Interface:-
1) OS – windows
2) Hard disk – 80 GB
3) RAM – 1 GB
4) Keyboard – Standard QWERTY keyboard for interface
5) Mouse – Standard mouse with 2 buttons
3.1.3. Software Interface:-
1) Front end – OOP using C++
2) OS – Net Beans IDE 6.9.1
3) .Net Firmware
3.1.4. Communication Interface:-
Windows
7. 3.2. Functional Requirements:-
3.2.1. Administration module:-
This module enables the user to insert, update, view, search and delete
the patient information.
3.2.2. Patient module:-
Data Members :- PatientId, Name, Age, Sex, BloodGroup, Marital Status
,Address, Phone Number.
3.2.3. Task module:-
This module is used by system admin to manage the system.
It has following sub modules.
Add New Patient :- This module is used to add a new patient.
View Details :- This module is used to view the details of a previously admitted
patient.
Search :- This module searches the record of desired patient using his ID,
Name, City or Blood Group.
Delete :- This module deletes the entry of a patient.
Recycle bin :- This module retrieves the deleted patient data.
3.2.4. Billing Module:-
It requires following data members.
Patient ID ,Patient Name, Treatment Charges, Bed Charges and Other Charges
Total Amount which gives the total amount which the patient has to pay.
8. 3.2.5. Updation module:-
This module used to store or produce the patient reports .This updates
patient info after each task.
3.3. Performance Requirements:-
The capability of the computer depends on the performance of the software.
The software can take any number of input provided the database size is large
enough. This would depend on the available memory space.
3.4. Design Constraints:-
This will help the doctors or users to view the records of the patients
immediately whenever necessary. They can also calculate the bill of the particular
patients. This software also has the ability to add, update and delete the record
whenever needed. This project will help to smoother the process of the hospital
activites.
4. SYSTEM FEATURES:
The users of the system should be provided the surety that their account is
secure. This is possible by following:
User authentication and validation of members using their member ID.
Proper monitoring by the administrator which includes account status,
showing a popup if wrong data is entered more than a required limit.
Privacy of personal details of patient maintained properly.
9. 5. ATTRIBUTES:
5.1
Reliability:
This application is a reliable product that produces fast and verified output of all its
processes.
Availability:
This application will be available to use and help them to carry out their operations
conveniently.
Security:
The application will be password protected. User will have to enter correct
username, password and role in order to access the application.
Maintainability:
The application will be designed in a maintainable manner. It will be easy to to
incorporate new requirements in the individual modules.
Portability:
The application will be easily portable on any windows-based system that has
oracle installed.
10. 5.2 Data Dictionary:-
CLASS
NAME
DATA MEMBERS MEMBER
FUNCTIONS
ADMIN:
task()
PATIENT:
Name: string Get_address()
ID: int Pay_bill()
Age: int
Maritial_status: string
Sex: string
Blood_group: string
TASK:
Add_patient()
View_details()
Search()
Discharge()
Prepare_bill()
ADDRESS:
House_no: int
Street: int
City: string
State: string
Country: string
BILL:
Treatment_charges: float Total_amount()
Bed_charges: float
Other_charges: float
Amount: float
11. 6. SYSTEM DESIGN:
The principles used in design are described below :-
1. DATA FLOW DIAGRAM:
Symbol Name Function
Data Flow Used to connect processes to each other. The
arrowhead indicates direction of data flow.
Process Performs some transformation to input data to
output data.
Source or
sink.(external
entity)
A source of system inputs or sink of system
outputs.
Data Store A repository of data. Arrowheads indicate net
inputs or net outputs to the store.
12.
13.
14. 2. ENTITY RELATIONSHIP DIAGRAM:-
Symbol Name Description
Entity
An entity can be any object, place, person
or anything.
Attribute
An Attribute Describes a property or
characteristics of an entity.
Relationship
A Relationship Describes relation
between entities.
19. CONCLUSION:-
The project Hospital Management System (HMS) is for computerizing the
working in a hospital. It is a great improvement over the manual system. The
computerization of the system has speed up the process. In the current system,
the front office managing is very slow. The hospital managing system was
thoroughly checked and tested with dummy data and thus is found to be very
reliable. The software takes care of all the requirements of an average hospital
and is capable to provide easy and effective storage of information related to
patients that come up to the hospital.
It generates test reports and also provides the facility for searching the details of
the patient. It also provides billing facility on the basis of patient’s status
whether it is an indoor or outdoor patient. The system also provides the facility
of backup as per the requirement.
FUTURE ENHANCEMENTS:
The proposed system is Hospital Management System. We can enhance this
system by including more facilities like pharmacy system for the stock details
of medicines in the pharmacy.
Providing such features enable the users to include more comments into the
system.
LIMITATIONS:
The size of the database increases day-by-day, increasing the load on the
database back up and data maintenance activity.
Training for simple computer operations is necessary for the users working
on the system.
20. REFERENCES:-
1) An integrated approach to software engineering, Third edition by
Pankaj Jalote
2) OOP in C++ – E Balaguruswamy
3) Software engineering By Ian Sommerville
WEB REFERENCES:
1 .www.google.com
2. www.stackoverflow.com
21. CODE FOR HMS:::
/* HOSPITAL MANAGEMENT SYSTEM
PROGRAMMING LANGUAGE C++
Please enter the input data in specified format only
*/
#include<iostream> //for input and output stream regulation
#include<process.h> //for exit()
#include<string.h> //for strlen() and strcmp()
#include<conio.h> //for getch() and clrscr()
#include<stdio.h>
using namespace std;
class all //declaration for class "all"
{
private:
struct address
{
int house;
char city[30];
char state[30];
char street[30];
23. void delete_entry();
void billing();
void after_delete_options();
int s_group;
int s_choice;
int en_del_index;
int delete_choice;
char ch;
char answer;
char answer1;
char s_city[30];
char exit_answer;
char delete_confirm;
char after_search_answer;
}; //end of class "all"
class temp1 //declaration for class "temp"
{
public:
int m,i,j,k,d,e,f,rem,temp,count,regis,entry,serial,attempt,current,index;
int
d_index,ssi_count,show_count,delete_show,search_index,search_count,current_ye
ar,delete_count;
int
search_number,restore_serial,entry_index[100],after_search_choice,after_restore_c
hoice;
25. T1.entry_index[T1.m]=-1;
}
cout<<"tttt WELCOME TO"<<"n";
cout<<"nnttt***HOSPITAL MANAGEMENT SOFTWARE***"<<"n";
cout<<"nttt BY SAKSHI,SHWETA AND SANJIT "<<"n";
A1.tasks();
} //end of main function
void all::tasks()
{
T1.attempt=0;
T1.d_index=0;
cout<<"nnttt ***Hospital Management Tasks***"<<"n";
cout<<"n";
cout<<"nntPlease select a task to do..."<<"n";
cout<<"nnt1. Enter a new patient information "<<"n";
cout<<"t2. View detail of existing patient "<<"n";
cout<<"t3. Search by city or blood group"<<"n";
cout<<"t4. Delete entry "<<"n";
cout<<"t5. Recycle Bin "<<"n";
cout<<"t6. Prepare Bill "<<"n";
cout<<"t7. Exit "<<"nnn";
cout<<"a Enter your task serial : ";
cin>>task;
27. }
case 7:{
A1.exit_function();
break;
}
default:
cout<<"nnnnntInvalid task serial !!!"<<"n";
cout<<"tValid options are 1-6 !!!"<<"n";
cout<<"tPress any key to return to the main task menu....a"<<"n";
getch();
A1.tasks();
}
return ; //end of switch for task
} //end of function
void all::enter_patient_info()
{
if(T1.current==100) //to avoid overflow of data in the database
{
cout<<"nnnt Database is full !!! ";
cout<<"nt Sorry, you cannot enter any more information !!! ";
cout<<"nt Information of maximum 100 patients can be entered !!!! ";
cout<<"nt Press any key to return to the main menu....a ";
getch();
A1.tasks();
29. for(T1.k=1;T1.k<T1.serial;T1.k++) //loop to avoid duplicate entries
{
if(strcmp(PI[T1.i].name,PI[T1.k].name)==0) //if match is found
{
if(T1.entry_index[T1.k]==0) //if entry is already deleted
continue;
else //if entry still exists
{
T1.current-=1; //current no. of entries remains same
cout<<"nnntThe patient is already admitted in the hospital !!!";
cout<<"ntWant to view info of this registration number in detail (Y/N) : a";
cin>>T1.duplicate_answer;
while(T1.duplicate_answer!='Y'&&T1.duplicate_answer!='y'&&T1.duplicate_ans
wer!='N'&&T1.duplicate_answer!='n')
{
cout<<"ntaPlease re enter a correct option (Y/N) : ";
cin>>T1.duplicate_answer;
}
if(T1.duplicate_answer=='y'||T1.duplicate_answer=='Y')
{
T1.entry_index[T1.i]=-1;
T1.regis=T1.k;
T1.d_index=1;
A1.show_patient_detail();
}
30. else
{
A1.tasks();
}
}
}
} //end of "for loop" to prevent duplicate entries
cout<<"nSex ( 1-Male , 2-Female ) : ";
cin>>PI[T1.i].sex;
while(PI[T1.i].sex!=1&&PI[T1.i].sex!=2)
{
cout<<"anInvalid input for sex of patient !!!";
cout<<"nSex : ";
cin>>PI[T1.i].sex;
}
cout<<"nMartial status( 1-Married , 2-Single ) : ";
cin>>PI[T1.i].martial_status;
while(PI[T1.i].martial_status<1||PI[T1.i].martial_status>2)
{
cout<<"anInvalid input for martial status !!!"<<"n";
cout<<"Enter a valid martial status : "<<"n";
31. cin>>PI[T1.i].martial_status;
}
cin.get(ch);
cout<<"n *** Blood group ***"<<"n";
cout<<" 1. A+ "<<"n";
cout<<" 2. A- "<<"n";
cout<<" 3. B+ "<<"n";
cout<<" 4. B- "<<"n";
cout<<" 5. AB+ "<<"n";
cout<<" 6. AB- "<<"n";
cout<<" 7. O+ "<<"n";
cout<<" 8. O- "<<"n";
cout<<"nEnter a blood group : ";
cin>>PI[T1.i].bld_group;
switch(PI[T1.i].bld_group)
{
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
case 8:
33. }
cin.get(ch);
cout<<"Street : ";
cin.getline(PI[T1.i].AD1.street,30);
while(strlen(PI[T1.i].AD1.street)==0)
{
cout<<"anPlease enter a street : "; //if enter is pressd before input for street
cin.getline(PI[T1.i].AD1.street,50);
cout<<"n";
}
cout<<"City : ";
cin.getline(PI[T1.i].AD1.city,30);
while(strlen(PI[T1.i].AD1.city)==0)
{
cout<<"anPlease enter a city : "; //if enter is pressd before input for city
cin.getline(PI[T1.i].AD1.city,50);
cout<<"n";
}
cout<<"State : ";
cin.getline(PI[T1.i].AD1.state,30);
while(strlen(PI[T1.i].AD1.state)==0)
{
cout<<"anPlease enter a state : "; //if enter is pressed before input for state
cin.getline(PI[T1.i].AD1.state,50);
cout<<"n";
34. }
cout<<"Country : ";
cin.getline(PI[T1.i].AD1.country,30);
while(strlen(PI[T1.i].AD1.country)==0)
{
cout<<"anPlease enter a country : "; //if enter is pressd before input for
country
cin.getline(PI[T1.i].AD1.country,50);
cout<<"n";
}
cout<<"nnWant to enter information for another patient (Y/N) ? ";
cin>>answer;
while(answer!='Y'&&answer!='y'&&answer!='N'&&answer!='n')
{
cout<<"anPease re-enter a correct option (Y/N) : ";
cin>>answer;
}
cout<<"n";
T1.count++;
T1.serial++;
} //end of "for loop" for entering information
A1.tasks();
} //end of function
void all::show_patient_detail()
{
35. if(T1.d_index==1)
{
T1.d_index=0;
cout<<"nn";
goto direct;
}
if(T1.current==0)
{
cout<<"nnn";
cout<<"tDatabase is empty !!!"<<"n";
cout<<"tPlease enter some information first. "<<"n";
cout<<"nntDo you want to enter now (Y/N) : a";
cin>>T1.enter_now;
while(T1.enter_now!='Y'&&T1.enter_now!='y'&&T1.enter_now!='N'&&T1.enter
_now!='n')
{
cout<<"antPlease enter a correct option (Y/N) : ";
cin>>T1.enter_now;
}
if(T1.enter_now=='y'||T1.enter_now=='Y')
A1.enter_patient_info();
else
A1.tasks();
}
cout<<"ntt****** CURRENT DATEBASE ENTRIES ******nn";
36. cout<<"ttRegistration no. Name of patientnn";
for(T1.j=1;T1.j<100;T1.j++)
{
if(T1.entry_index[T1.j]==1)
cout<<"tt "<<T1.j<<" "<<PI[T1.j].name<<"n";
else
continue;
}
cout<<"nnttPress 0 to return to main menu.... ";
cout<<"nnnEnter registration number whose details you want to see : ";
cin>>T1.regis;
cout<<"nn";
cin.get(ch);
if(T1.regis==0)
A1.tasks();
T1.show_count++;
direct: //label for "goto" jump statement
if(T1.regis<=0)
{
cout<<"nntSorry, invalid registration number ";
cout<<"ntRegistration number starts from 1. ";
cout<<"nntPress any key to continue..... a";
getch();
A1.show_patient_detail();
37. }
if(T1.regis>0&&T1.regis<T1.serial&&T1.entry_index[T1.regis]==0)
{
cout<<"ntSorry, the patient has left the hospital.";
cout<<"ntPress any key to continue..."<<"n";
getch();
}
if((T1.regis<0||T1.regis>=T1.serial)&&T1.entry_index[T1.regis]==-1)
{
cout<<"nntSorry, the registration number is invalid ."<<"n";
T1.entry=T1.serial-1;
if(T1.entry==1)
cout<<"tOnly 1 record has been added .n";
else
cout<<"tOnly "<<T1.entry<<" records have been added .n";
}
if(T1.regis>0&&T1.regis<T1.serial&&T1.entry_index[T1.regis]==1)
{
cout<<"nt ***INFORMATION FOR PATIENT REGISTRATION NUMBER
"<<T1.regis<<"***nn";
cout<<"tName : "<<PI[T1.regis].name<<"n";
cout<<"tSex : ";
if(PI[T1.regis].sex==1)
cout<<"Male "<<"n";
if(PI[T1.regis].sex==2)
38. cout<<"Female "<<"n";
cout<<"tBlood Group : ";
switch(PI[T1.regis].bld_group)
{
case 1:
cout<<"A+n";
break;
case 2:
cout<<"A-n";
break;
case 3:
cout<<"B+n";
break;
case 4:
cout<<"B-n";
break;
case 5:
cout<<"AB+n";
break;
case 6:
cout<<"AB-n";
break;
case 7:
cout<<"O+n";
39. break;
case 8:
cout<<"O-n";
} //end of switch
cout<<"tMarital Status : ";
if(PI[T1.regis].martial_status==1)
cout<<"Married "<<"n";
else
cout<<"Single "<<"n";
cout<<"nt **ADDRESS**"<<"n";
cout<<"ntHouse no. : "<<PI[T1.regis].AD1.house;
cout<<"ntStreet : "<<PI[T1.regis].AD1.street;
cout<<"ntCity : "<<PI[T1.regis].AD1.city;
cout<<"ntState : "<<PI[T1.regis].AD1.state;
cout<<"ntCountry : "<<PI[T1.regis].AD1.country;
}
T1.d_index=0;
cout<<"nnnntWant to view detail of another patient(y/n) : ";
cin>>answer1;
while(answer1!='Y'&&answer1!='y'&&answer1!='N'&&answer1!='n')
{
cout<<"atPease re-enter a correct option (Y/N) ? ";
cin>>answer1;
}
40. if(answer1=='Y'||answer1=='y')
A1.show_patient_detail();
else
A1.tasks();
} //end of function
void all::billing()
{
char pn[25];
float bc,tc,oc,tot;
cout<<"nPatient Name :t";
cin>>pn;
cout<<"nBed Charge :t";
cin>>bc;
cout<<"nTreatment Charge:t";
cin>>tc;
cout<<"nOther Charges :t";
cin>>oc;
tot=bc+tc+oc;
cout<<"nnnTotal Billing Charges :t"<<tot;
cout<<"annntPress any key to return to the main task menu......."<<"n";
getch();
A1.tasks();
} //end of function
41. void all::search_menu()
{
T1.ssi_count=0;
if(T1.current==0)
{
cout<<"nnn";
cout<<"tDatabase is empty !!!"<<"n";
cout<<"tPlease enter some information first. "<<"n";
cout<<"nntDo you want to enter now (Y/N) : a";
cin>>T1.enter_now;
while(T1.enter_now!='Y'&&T1.enter_now!='y'&&T1.enter_now!='N'&&T1.enter
_now!='n')
{
cout<<"antPlease enter a correct option (Y/N) : ";
cin>>T1.enter_now;
}
if(T1.enter_now=='y'||T1.enter_now=='Y')
A1.enter_patient_info();
else
A1.tasks();
}
T1.search_number=0;
cout<<"nntt ***SEARCH MENU***"<<"n";
cout<<"nntt 1. Search by city "<<"n";
42. cout<<"tt 2. Search by blood group "<<"n";
cout<<"tt 3. Return to main menu "<<"n";
cout<<"nnt Enter your choice : a";
cin>>s_choice;
cin.get(ch);
cout<<"nnn";
switch(s_choice)
{
case 1:
T1.search_index=1;
cout<<"nntt***SEARCHING BY CITY***n";
cout<<"nntEnter city : ";
cin.getline(s_city,30);
cout<<"nnn";
while(strlen(s_city)==0) //if enter is pressed before input for city
{
cout<<"ntPlease enter a city : a";
cin.getline(s_city,30);
}
A1.search_city();
break;
case 2:
T1.search_index=2;
cout<<"nntt***SEARCHING BY BLOOD GROUP***n";
43. cout<<"nntt ***BLOOD GROUP MENU***nn";
cout<<"t1. A+ "<<"n";
cout<<"t2. A- "<<"n";
cout<<"t3. B+ "<<"n";
cout<<"t4. B- "<<"n";
cout<<"t5. AB+ "<<"n";
cout<<"t6. AB- "<<"n";
cout<<"t7. O+ "<<"n";
cout<<"t8. O- "<<"n";
cout<<"nn Enter the serial of your required group : ";
cin>>s_group;
while(s_group!=1&&s_group!=2&&s_group!=3&&s_group!=4&&
s_group!=5&&s_group!=6&&s_group!=7&&s_group!=8)
{
cout<<"n";
cout<<"tInvalid search criteria !!!"<<"n";
cout<<"tValid serials are 1 to 8."<<"n";
cout<<"tEnter a valid blood group : a";
cin>>s_group;
}
cout<<"nnn";
A1.search_blood_group();
break;
case 3:
44. A1.tasks();
break;
default:
cout<<"ann Invalid search criteria !!!"<<"n";
cout<<" Valid options are 1 and 2 !!!"<<"n";
cout<<" Press any key to return to the main searching menu....."<<"n";
getch();
A1.search_menu();
} //end of switch
} //end of function
void all::search_city()
{
T1.search_count=0;
T1.search_number++;
cout<<"nnn";
for(T1.index=1;T1.index<T1.serial;T1.index++)
{
if((strcmp(PI[T1.index].AD1.city,s_city))==0)
{
if(T1.entry_index[T1.index]==0)
continue;
if(T1.search_count==0)
cout<<"ttRegistration no. Name of patientnn";
cout<<"ntt "<<T1.index<<"tt"<<PI[T1.index].name;
45. T1.search_count++;
}
}
if(T1.search_number==1)
{
cout<<"annntt Search is complete !!! "<<"n";
if(T1.search_count==0)
{
cout<<"tt No result found !!!"<<"nnn";
cout<<"tt Press any key to continue.....";
getch();
A1.after_search_options();
}
if(T1.search_count>1)
cout<<"tt "<<T1.search_count<<" results found !!! "<<"nnn";
if(T1.search_count==1)
cout<<"tt "<<T1.search_count<<" result found !!! "<<"nnn";
}
if(T1.search_number==1)
{
cout<<"nnttWant to view in detail : ";
cin>>after_search_answer;
48. getch();
A1.after_search_options();
}
if(T1.search_count>1)
cout<<"tt "<<T1.search_count<<" results found !!! "<<"nnn";
if(T1.search_count==1)
cout<<"tt "<<T1.search_count<<" result found !!! "<<"nnn";
}
if(T1.search_number==1)
{
cout<<"nnttWant to view in detail (y/n): ";
cin>>after_search_answer;
while(after_search_answer!='y'&&after_search_answer!='Y'&&after_search_answ
er!='N'&&after_search_answer!='n')
{
cout<<"annttPlease enter a correct option (y/n)";
cout<<"nttDo you want to view in detail : ";
cin>>after_search_answer;
}
if(after_search_answer=='y'||after_search_answer=='Y')
{
cout<<"nnnttWhich registration number : ";
cin>>T1.index;
A1.search_show_info();
}
49. else
A1.after_search_options();
}
else
{
cout<<"nnnttWhich registration number : ";
cin>>T1.index;
A1.search_show_info();
}
} //end of function
void all::search_show_info()
{
T1.ssi_count++;
cout<<"nn";
if(T1.index<=0)
{
cout<<"nntSorry, invalid registration number !!!";
cout<<"ntRegistration number starts from 1 ";
cout<<"ntPress any key to continue.........n";
getch();
switch(T1.search_index)
{
case 1:
A1.search_city();
50. break;
case 2:
A1.search_blood_group();
break;
} //end of switch
}
if(T1.entry_index[T1.index]==0)
{
cout<<"nntSorry, the patient has left the hospital ."<<"n";
cout<<"tPress any key to continue ....a"<<"n";
getch();
switch(T1.search_index)
{
case 1:
A1.search_city();
break;
case 2:
A1.search_blood_group();
break;
} //end of switch
}
if(T1.entry_index[T1.index]==-1||T1.index>=T1.serial)
{
cout<<"nnttSorry, the registration number in invalid ."<<"n";
T1.entry=T1.serial-1;
51. if(T1.entry==1)
cout<<"ttOnly 1 record has been added .n";
else
cout<<"ttOnly "<<T1.entry<<" records have been added .n";
cout<<"ttPress any key to continue....a"<<"n";
getch();
switch(T1.search_index)
{
case 1:
A1.search_city();
break;
case 2:
A1.search_blood_group();
break;
} //end of switch
}
cout<<"n";
T1.ssi_count=0;
cout<<"nt ***INFORMATION FOR PATIENT REGISTRATION NUMBER
"<<T1.index<<"***nn";
cout<<"tName : "<<PI[T1.index].name<<"n";
cout<<"tSex : ";
if(PI[T1.index].sex==1)
cout<<"Male "<<"n";
if(PI[T1.index].sex==2)
52. cout<<"Female "<<"n";
cout<<"tBlood Group : ";
switch(PI[T1.index].bld_group)
{
case 1:
cout<<"A+n";
break;
case 2:
cout<<"A-n";
break;
case 3:
cout<<"B+n";
break;
case 4:
cout<<"B-n";
break;
case 5:
cout<<"AB+n";
break;
case 6:
cout<<"AB-n";
break;
case 7:
cout<<"O+n";
53. break;
case 8:
cout<<"O-n";
break;
} //end of switch
cout<<"tMarital Status : ";
if(PI[T1.index].martial_status==1)
cout<<"Married "<<"n";
else
cout<<"Single "<<"n";
cout<<"nt **ADDRESS**"<<"n";
cout<<"ntHouse no. : "<<PI[T1.index].AD1.house;
cout<<"ntStreet : "<<PI[T1.index].AD1.street;
cout<<"ntCity : "<<PI[T1.index].AD1.city;
cout<<"ntState : "<<PI[T1.index].AD1.state;
cout<<"ntCountry : "<<PI[T1.index].AD1.country;
cout<<"nnntWant to view info of another patient within search results (Y/N) ?
";
cin>>after_search_answer;
while(after_search_answer!='Y'&&after_search_answer!='y'&&after_search_answ
er!='N'&&after_search_answer!='n')
{
cout<<"antPlease enter a correct option (Y/N) : ";
56. cout<<"nntDo you want to enter now (Y/N) : a";
cin>>T1.enter_now;
while(T1.enter_now!='Y'&&T1.enter_now!='y'&&T1.enter_now!='N'&&T1.enter
_now!='n')
{
cout<<"antPlease re-enter a correct option (Y/N) : ";
cin>>T1.enter_now;
}
if(T1.enter_now=='y'||T1.enter_now=='Y')
A1.enter_patient_info();
else
A1.tasks();
}
cout<<"ntt ***CURRENT DATABASE ENTRIES***nn";
cout<<"ttRegistration no. Name of patientnn";
for(T1.j=1;T1.j<T1.serial;T1.j++)
{
if(T1.entry_index[T1.j]==0)
continue; //to ignore deleted items
if(T1.entry_index[T1.j]==1)
{
T1.delete_show++;
cout<<"tt "<<T1.j<<" "<<PI[T1.j].name<<"n";
}
}
57. if(T1.delete_show==0)
{
cout<<"ntDatabase is currently empty!!!a";
cout<<"ntPress any key to continue....";
getch();
A1.tasks();
}
cout<<"nntPress 0 to return to main menu and 101 to delete all entries... ";
cout<<"nnnt Or enter the registration no. from 1 to 100 you want to delete ? ";
cin>>en_del_index;
if(en_del_index==101)
{
cout<<"ntWarning : You are about to delete all entries !!!a";
cout<<"ntAre you sure you want to do this : ";
cin>>T1.delete_all_confirm;
while(T1.delete_all_confirm!='Y'&&T1.delete_all_confirm!='y'&&T1.delete_all_c
onfirm!='N'&&T1.delete_all_confirm!='n')
{
cout<<"ntSorry, wrong input !!!";
cout<<"ntPlease enter a valid choice (Y/N) : a";
cin>>T1.delete_all_confirm;
}
if(T1.delete_all_confirm=='y'||T1.delete_all_confirm=='Y')
{
for(T1.f=1;T1.f<=100;T1.f++)
58. {
if(T1.entry_index[T1.f]==1)
{
T1.current--;
T1.entry_index[T1.f]=0;
}
}
cout<<"nntAll entries have been succesfully deleted!!!";
cout<<"ntPress any key to return to the main menu...a";
getch();
A1.tasks();
}
else
{
cout<<"ntNo entries have been deleted.";
cout<<"ntPress any key for more options....";
getch();
A1.after_delete_options();
}
}
if(en_del_index==0)
A1.tasks();
if(en_del_index>0&&en_del_index<T1.serial&&T1.entry_index[en_del_index]==
1)
{
59. cout<<"nntAre you sure you want to delete entry "<<en_del_index<<" (Y/N) ?
";
cin>>delete_confirm;
while(delete_confirm!='Y'&&delete_confirm!='y'&&delete_confirm!='N'&&delet
e_confirm!='n')
{
cout<<"antPease re-enter a correct option (Y/N) ? ";
cin>>delete_confirm;
}
if(delete_confirm=='y'||delete_confirm=='Y')
{
T1.entry_index[en_del_index]=0; //entry now deleted. index value set to 0
T1.current--;
cout<<"ntEntry succesfully deleted.n";
cout<<"tPress any key to continue.....a";
getch();
A1.after_delete_options();
}
else
{
T1.entry_index[en_del_index]=1; //entry not deleted. default index value(1) kept
cout<<"ntEntry not deleted ";
cout<<"ntPress any key to continue.......";
getch();
A1.after_delete_options();
60. }
}
if(en_del_index>0&&en_del_index<T1.serial&&T1.entry_index[en_del_index]==
0)
{
cout<<"nntSorry, the patient has already left the hospital ."<<"n";
cout<<"ntPress any key to continue...a"<<"n";
getch();
A1.delete_entry();
}
else
{
cout<<"nntSorry, Invalid registration number ."<<"an";
T1.entry=T1.serial-1;
if(T1.entry==1)
cout<<"tOnly 1 record has been added .n";
else
cout<<"tOnly "<<T1.entry<<" records were added and "<<T1.current<<" are
present now.n";
cout<<"tPress any key to continue..."<<"n";
getch();
A1.delete_entry();
}
} //end of function
61. void all::after_delete_options()
{
cout<<"nttWHAT DO YOU WANT TO DO NOW ?";
cout<<"ntt1. Delete more entries ";
cout<<"ntt2. Return to main menu "<<"n";
cout<<"nttPlease enter your choice : ";
cin>>delete_choice;
while(delete_choice!=1&&delete_choice!=2)
{
cout<<"anntSorry, wrong choice .";
cout<<"ntValid choices are 1 and 2. ";
cout<<"ntPlease re-enter your choice : ";
cin>>delete_choice;
}
switch(delete_choice)
{
case 1:
A1.delete_entry();
break;
case 2:
A1.tasks();
} //end of switch
} //end of function
void all::recycle_bin()
62. {
T1.delete_count=0;
if(T1.serial==0)
{
cout<<"nnn";
cout<<"tDatabase is empty !!!"<<"n";
cout<<"tPlease enter some information first. "<<"n";
cout<<"nntDo you want to enter now (Y/N) : a";
cin>>T1.enter_now;
while(T1.enter_now!='Y'&&T1.enter_now!='y'&&T1.enter_now!='N'&&T1.enter
_now!='n')
{
cout<<"antPlease enter a correct option (Y/N) : ";
cin>>T1.enter_now;
}
if(T1.enter_now=='y'||T1.enter_now=='Y')
A1.enter_patient_info();
else
A1.tasks();
}
cout<<"ntt ****** DELETED ENTRIES ******nn";
cout<<"ttRegistration no. Name of patientnn";
for(T1.d=1;T1.d<T1.serial;T1.d++)
{
if(T1.entry_index[T1.d]==0)
64. while(T1.restore_all_confirm!='Y'&&T1.restore_all_confirm!='y'&&T1.restore_al
l_confirm!='N'&&T1.restore_all_confirm!='n')
{
cout<<"nntPlease re-enter a corrent option : ";
cin>>T1.restore_all_confirm;
}
if(T1.restore_all_confirm=='y'||T1.restore_all_confirm=='Y')
{
for(T1.e=1;T1.e<=100;T1.e++)
if(T1.entry_index[T1.e]==0)
{
T1.current++;
T1.entry_index[T1.e]=1;
}
cout<<"ntAll deleted items have been succesfully restored.";
cout<<"ntPress any key to return to the main menu...";
getch();
A1.tasks();
}
else
{
cout<<"nntNo entry has been restored.";
cout<<"ntPress any key to view the recycle bin...a";
getch();
A1.recycle_bin();
65. }
}
if(T1.entry_index[T1.restore_serial]==0)
{
cout<<"ntAre you sure you want to restore entry "<<T1.restore_serial<<" : ";
cin>>T1.restore_confirm;
while(T1.restore_confirm!='Y'&&T1.restore_confirm!='y'&&T1.restore_confirm!
='N'&&T1.restore_confirm!='n')
{
cout<<"nntInvalid input !!! ";
cout<<"ntPease re-enter a correct option (Y/N) : a";
cin>>T1.restore_confirm;
}
if(T1.restore_confirm=='Y'||T1.restore_confirm=='y')
{
T1.current++;
T1.delete_count=0;
T1.entry_index[T1.restore_serial]=1; //index value set to 1
cout<<"ntEntry succesfully restored!!!";
cout<<"ntPress any key to continue....a";
getch();
A1.after_restore();
}
else
{
66. cout<<"ntEntry not restored!!!"; //index value kept 0
cout<<"ntPress any key to continue...na";
getch();
A1.after_restore();
}
}
if(T1.entry_index[T1.restore_serial]==1)
{
cout<<"ntThe entry is already present in the database.";
cout<<"ntPress any key to continue...";
getch();
A1.recycle_bin();
}
if(T1.restore_serial<0||T1.restore_serial>100||T1.entry_index[T1.restore_serial]==-
1)
{
cout<<"ntInvalid serial number";
cout<<"ntPress any key to continue...";
getch();
A1.recycle_bin();
}
} //end of function
void all::after_restore()
{
67. cout<<"nnnttWHAT DO YOU WANT TO DO NOW? ";
cout<<"ntt1. Restore more entries ";
cout<<"ntt2. Return to main manu ";
cout<<"nnttPlease enter your choice : ";
cin>>T1.after_restore_choice;
switch(T1.after_restore_choice)
{
case 1:
A1.recycle_bin();
break;
case 2:
A1.tasks();
break;
default:
cout<<"nnntSorry, wrong choice ";
cout<<"ntValid choices are 1 and 2 ";
cout<<"ntPress any key to continue......";
getch();
A1.after_restore();
}
} //end of function
void all::exit_function()
{
if(T1.serial==0)
68. {
cout<<"nnnntYou have not used the software.";
cout<<"ntIt is recommended that you should not exit.";
cout<<"ntPress any key to continue......a";
getch();
cout<<"nnntAre you sure you want to exit (Y/N) ? ";
cin>>exit_answer;
while(exit_answer!='Y'&&exit_answer!='y'&&exit_answer!='N'&&exit_answer!='
n')
{
cout<<"nntInvalid input !!! ";
cout<<"ntPease re-enter a correct option (Y/N) : a";
cin>>exit_answer;
}
if(exit_answer=='y'||exit_answer=='Y')
{
cout<<"a";
exit ;
}
else
A1.tasks();
}
cout<<"nnnttt ***SOFTWARE DETAILS***n";
cout<<"nntDeveloper : Sakshi , Shweta , Sanjit "<<"n";
cout<<”n NATIONAL INSTITUTE OF TECHNOLOGY KURUKSHETRAn”;
69. cout<<"tProgramming Language : C++ "<<"n";
cout<<"ntHope you like it..."<<"n";
cout<<"nntThanks for trying this "<<"n";
cout<<"nnntPress any key to continue........"<<"n";
getch();
exit(0);
} //end of function