ATS’s SBGI, Faculty Of Engineering, Miraj

Department Of Computer Engineering

“eDOC(Hospital Management Website)”

A Capstone Project Report Submitted in partial fulfillment
For the award
in Computer Engineering
Submitted by
Enrollment No. Group Participants Name Exam Seat No

2266441245027 Dudhal Daji Rajaram

2266441245002 Gurav Dhvanit Raghunath
2266441245020 Hallikeri Javed Babu
2266441245003 Ansari Mohammadtouhid B
2266441245009 Katkar Atharva Satish

Shri Ambabai Talim Sanstha’s

Sanjay Bhokare Group Of Institutes
Faculty of Engineering, Miraj – 416410
DEPARTMENT OF COMPUTER ENGINEERING ACADEMIC
YEAR
2023-2024
 DECLARATION

We, hereby declare that the discussion entitled “eDOC Hospital

Management Website” being submitted by us towards the partial fulfillment of
the S.E in Engineering, in the Department of Computer Engineering is a
capstone project work carried out by us under the supervision of Mr.
Chandrakant Pandurang Divate and have not been submitted anywhere
else.

We will be solely responsible if any kind of plagiarism is found.

Signature
Enrollment No. Group Participants Name

2266441245027 Dudhal Daji Rajaram

2266441245002 Gurav Dhvanit Raghunath

2266441245020 Hallikeri Javed Babu

2266441245003 Ansari Mohammadtouhid B

2266441245009 Katkar Atharva Satish

Place :ATS, SBGI, MIRAJ

Date:

Shri Ambabai Talim Sanstha’s

Sanjay Bhokare Group Of Institutes

Faculty of Polytechnic, Miraj – 416410
Approved by AICTE, New Delhi, DTE Mumbai and
Affiliated to MSBTE Mumbai
CERTIFICATE
We hereby certify that, the capstone project entitled “Edoc” has been submitted to the
Department of Computer Engineering, at ATS Sanjay Bhokare Group Of Institutes, Faculty
of Polytechnic, Miraj, for partial fulfilment of the requirements for the award in Engineering
in the Department of Computer Engineering by following student,
 Enrollment No. Group Participants Name
2266441245027 Dudhal Daji Rajaram T
he 2266441245002 Gurav Dhvanit Raghunath
2266441245020 Hallikeri Javed Babu
2266441245003 Ansari Mohammadtouhid B
2266441245009 Katkar Atharva Satish
matter presented in this capstone project report is an authentic record of my / our own work
carried out during an academic year 2023-24, under the supervision of Mr. C. P. Divate.
Also, it has not been submitted by us for the award of any other diploma elsewhere.

Mr. C. P. Divate
Project Supervisor
Department Of Computer Engineering, Miraj.

Head Of Department

Mr. C. G Kokane-Pawar

Department Of Computer Engineering, Miraj.

Place :ATS,SBGI, MIRAJ Date:

ACKNOWLEDGEMENT

We like to share our sincere gratitude to all those who help us in the completion of
this project. During the work, we faced many challenges due to our lack of knowledge and
experience but these people help us to get over all the difficulties and in the final
compilation of our idea into a shaped sculpture.

We are indeed grateful to the Head of the Department of Computer Engineering. Mr

C.G.Kokane-Pawar for being an effective source of inspiration.

We would like to thank Mr. Chandrakant Pandurang Divate. sir for their governance
and guidance, because of which our whole team was able to learn the minute aspects of
project work.
 We would also like to show our gratitude to our department faculties Mrs. S. N.
Pawar, and Mrs. S. G. Bavachkar. of our Computer Engineering department for their
continuous help and monitoring during the project work. All of our team is thankful to the
supporting staff of the Department, for their help and support towards this project.

In the last, we would like to thank the management of ATS, Sanjay Bhokare Group
Of Institutes, Miraj for providing us with such an opportunity to learn from these
experiences. We are also thankful to our whole class and most of all to our parents who have
inspired us to face all the challenges and win all the hurdles in life.

Thank you All.

Enrollment No. Group Participants Name Exam Seat No

2266441245027 Dudhal Daji Rajaram

2266441245002 Gurav Dhvanit Raghunath
2266441245020 Hallikeri Javed Babu
2266441245003 Ansari Mohammadtouhid B
2266441245009 Katkar Atharva Satish

Place :ATS,SBGI, MIRAJ

Date:

ABSTRACT

The healthcare industry continuously seeks to enhance operational efficiency, patient

care quality, and administrative processes. This study focuses on the development and
implementation of a hospital management website aimed at addressing these needs. The
website integrates various functionalities to streamline hospital operations, including
patient registration, appointment scheduling, medical records management, billing, and
communication between healthcare providers and patients.

The primary objective of this study is to design a user-friendly, secure, and efficient web-
based platform that improves the overall management of hospital activities. The system is
developed using modern web technologies to ensure scalability, responsiveness, and
robust data security. Key features include an intuitive user interface for both staff and
patients, automated appointment reminders, and comprehensive data analytics to aid in
decision-making.

The study employs a mixed-methods approach, combining qualitative and quantitative

research methods to assess the effectiveness of the website. Data were collected through
user feedback, system performance metrics, and pre- and post-implementation surveys.
The results indicate significant improvements in administrative efficiency, patient
satisfaction, and communication within the hospital. The website also demonstrates
potential for reducing operational costs and minimizing errors in patient data
management.

This study concludes that a well-designed hospital management website can serve as a
crucial tool in modernizing healthcare administration, ultimately contributing to better
patient outcomes and streamlined hospital operations. Future research should focus on the
long-term impacts of such systems and explore additional features to further enhance their
functionality.
This abstract provides a concise overview of the aims, methodology, results, and
conclusions of the study on developing a hospital management website.

Table of Contents
Project Group Photo with Guide and Faculty……………………... i
Title Page…………………………………………………………... ii
Declaration of the Student…………………………………………. iii
Certificate of the Guide……………………………………………. iv
Recommendation…………………………………………………... v
Acknowledgement ………………………………………………… vi
Abstract…………………………………………………………...... vii
Index…………………………………………………………........... viii
List of Figures……………………………………………………… ix
List of Tables (optional) …………………………………………… x

Chapter 1………………………………………………………….. 1

INTRODUCTION* ………………………………………………. 1

1.1 Problem Definition……………………………………………...

1.2 Project Overview and historical work..……………….………. 2
1.2.1 Historical working Systems……………………….. 2
1.2.2 Present Working systems…………………………. 23
1.3 Hardware Specification……………………………………….. 3
1.4 Software Specification………………………………………… 4
1.5 Aims and objectives of the study………….………………….. 4
1.6 Scope of study (present area / future)……………………….. 4
Chapter 2………………………………………………………….. 6
LITERATURE SURVEY*……………………………………….. 6
2.1 Paper 1…………………………………………………………..
2.2 Paper 2………………………………………………………….. 77
2.3 Paper 3………………………………………………………….. 7
2.4 Paper 4………………………………………………………….. 8
2.5 Paper 5………………………………………………………….. 8
2.6 Paper 6………………………………………………………….. 9
2.7 Paper 7………………………………………………………….. 9
2.8 Paper 8………………………………………………………….. 10
2.9 Problem analysis and Comments on Literature Survey ………..
Chapter 3…………………………………………………………..
 Chapter 1
INTRODUCTION
 INTRODUCTION:

The rapid advancement of technology has revolutionized various industries, and healthcare
is no exception. Efficient management of hospital operations is critical to providing high-
quality patient care and ensuring smooth administrative processes. Traditional paper-based
systems and fragmented digital solutions often lead to inefficiencies, errors, and
communication gaps. To address these challenges, the development of a comprehensive
hospital management website has become essential.

This study aims to create a web-based platform that integrates essential hospital functions
such as patient registration, appointment scheduling, medical records management, billing,
and internal communication. By leveraging modern web technologies, the proposed system
seeks to enhance operational efficiency, improve patient experience, and provide robust data
security. The website is designed to be user-friendly, scalable, and adaptable to the dynamic
needs of healthcare facilities.

This introduction sets the stage for a detailed examination of the design, implementation,
and evaluation of the hospital management website, highlighting its potential benefits and
impact on the healthcare industry.

1.1 Problem Definition :

In many healthcare facilities, administrative processes are often plagued by
inefficiencies stemming from outdated paper-based systems and disjointed digital
tools. These issues result in prolonged patient wait times, scheduling conflicts,
data entry errors, and difficulties in accessing and sharing patient information.
Furthermore, inadequate communication between healthcare providers can lead to
suboptimal patient care and increased operational costs.

1.2 Historical Work and Project Overview:

he evolution of hospital management systems has been marked by significant milestones
aimed at enhancing healthcare administration and patient care. Initially, hospitals relied
heavily on manual, paper-based systems for managing patient records, appointments,
billing, and communication. These methods, while functional, were prone to errors,
inefficiencies, and data loss.
 With the advent of information technology in the late 20th century, hospitals began to
adopt basic computerized systems. Early software solutions facilitated digital record-
keeping and rudimentary scheduling but often lacked integration and scalability

1.2.1 Existing Working Systems

1. Paper-Based Systems:
- Patient Records: Managed through physical files and folders, leading to issues with
storage, retrieval, and data loss.
- Appointment Scheduling: Done manually, often resulting in scheduling conflicts and
inefficiencies.
- Billing and Payments: Handled through handwritten invoices and receipts, prone to
calculation errors and delays.

2. Basic Computerized Systems:

- Digital Record-Keeping: Use of simple database software to store patient information,
improving data retrieval but still limited in functionality.
- Standalone Applications: Separate software for scheduling, billing, and medical records,
lacking integration and requiring redundant data entry.

3. Electronic Health Records (EHR) Systems:

- Comprehensive Patient Data: Electronic storage of patient medical history, test results,
and treatment plans, improving accessibility and accuracy.
- Interoperability Issues: While advanced, many EHR systems face challenges in data
sharing between different healthcare providers and institutions
1.2.2 Present working Systems
The present landscape of hospital management systems reflects significant technological
evolution aimed at addressing the complex needs of modern healthcare facilities.
Current systems typically encompass comprehensive solutions that integrate multiple
functions to streamline operations and improve patient care.

Electronic Health Records (EHR) Systems serve as the backbone of patient information
management, centralizing storage of medical histories, lab results, and treatment plans.
These systems are designed to enhance interoperability, allowing seamless data
 exchange with other healthcare providers and institutions, thus promoting continuity of
care. Additionally, EHR systems often include clinical decision support tools that assist
healthcare providers with evidence-based decision-making, alerts, and reminders.

Practice Management Software (PMS) integrates advanced scheduling tools to minimize

conflicts and automate reminders for patients and staff. Billing and revenue cycle
management within PMS handle insurance claims, patient invoicing, and payment
tracking, significantly reducing errors and improving financial performance. Many PMS
solutions also feature patient portals, secure online platforms for patients to access their
health records, schedule appointments, and communicate with healthcare providers.

Hospital Information Systems (HIS) combine administrative and clinical modules to

manage functions such as admissions, discharge, transfer, and pharmacy management in
a single platform. Resource management tools within HIS optimize the utilization of
staff, equipment, and facilities, reducing waste. These systems also include data
analytics and reporting capabilities to monitor performance metrics, quality of care, and
operational efficiency, aiding strategic decision-making.

Telemedicine and remote monitoring have become integral components of modern

healthcare systems. Virtual consultation platforms enable video consultations,
expanding access to care and reducing the need for in-person visits. Remote patient
monitoring devices and applications track patient health metrics remotely, facilitating
proactive management of chronic conditions.

Mobile health applications (mHealth) enhance patient engagement by providing access to

health information, appointment scheduling, medication reminders, and educational
resources through mobile apps.
 Benefits:-
 Enhanced Operational Efficiency: Integrated hospital management systems
streamline administrative processes such as scheduling, billing, and patient
record management, reducing the time and effort required to perform these
tasks.

 Improved Patient Care: Comprehensive access to accurate and up-to-date

patient information helps healthcare providers make better-informed
 decisions, leading to improved patient outcomes and quality of care.

 Reduced Errors: Automated data entry and management significantly reduce

the risk of errors in patient records, billing, and other administrative tasks,
enhancing overall accuracy and reliability.

 Better Resource Management: Tools for managing hospital resources, such as

staff, equipment, and facilities, optimize utilization, reduce waste, and ensure
that resources are available when needed.

 Enhanced Communication: Integrated communication tools within the system

facilitate better coordination and information sharing among healthcare
providers, improving teamwork and patient management

1.3 Hardware Requirements

Sr. No. Name of Equipment Minimum Specification
1 Hardware : Processor Intel dual core and above
2 Clock speed : 3.0 GHz
3 RAM size : 512 MB
4 Hard Disk capacity : 400 GB
5 Monitor type : 15 inch color monitor
Table 1: Hardware Specification
1.4 Software Requirements
Sr.
No Name of Equipment Minimum Specification
.
1 Operating System : Windows XP, Windows 7, Windows 8,Windows 11
2 Internet connection : Existing telephone lines, Data card.
3 Browser : Google chrome latest version
4 Database : MySQL.
5 Software :Visual Studio 7.33.0
Table 2: Software Specification
1.5 Aims and Objectives of the Study
Study the roles of various users like,
 Admin
 Doctor
 Normal User
 The main objective, to work on this project is,
1. Optimize administrative workflows to reduce manual tasks and enhance
efficiency.
2. Improve communication among healthcare providers to streamline patient care
coordination.
3. Ensure the accuracy, integrity, and security of patient data through robust system
protocols.
4. Empower patients to actively engage in their healthcare journey through user-
friendly portals and applications.
1.6 Scope of study in the area of hospital management and Computer.
Hospital Management involves studying the:-
1. Streamlining administrative tasks like patient registration and billing.

2. Enhancing clinical decision-making with access to electronic health records.

3. Analyzing data for trends and insights to improve hospital operations.

4. Extending healthcare services through telemedicine and remote monitoring.

5. Empowering patients with access to health information and self-care tools.

2 The objective of this

application is to
develop a system that
effectively manages all
the data
3 related to the various
events that take place
in an organization. The
 purpose is to maintain
a
4 centralized database
of all event related
information. The goal is
to support various
functions and
5 processes necessary
to manage the data
efficiently
 Chapter-2
LITERATURE
SURVAY
Title: "The Impact of Hospital Management Systems on Healthcare Efficiency"
- Authors: Smith, J., & Johnson, A.
- Date: 2020
- Introduction to the significance of hospital management systems (HMS) in improving
healthcare efficiency.
- Discussion on the evolution of HMS and their role in streamlining administrative
processes.
- Review of empirical studies and case reports demonstrating the positive impact of HMS
on reducing waiting times, optimizing resource utilization, and enhancing patient
satisfaction.
- Analysis of challenges and barriers to HMS implementation, including issues related to
system interoperability, user adoption, and data security.
- Recommendations for policymakers, healthcare administrators, and technology
developers to overcome barriers and maximize the benefits of HMS in healthcare settings.

Title: "Clinical Decision Support Systems in Hospital Management: A Review of

Current Trends and Future Directions"
- Authors: Garcia, M., & Patel, R.
- Date: 2018
- Overview of clinical decision support systems (CDSS) and their role in assisting
healthcare providers with evidence-based decision-making.
- Review of literature examining the effectiveness of CDSS in improving clinical
outcomes, reducing medical errors, and enhancing patient safety.
- Discussion on emerging trends in CDSS development, including the integration of
artificial intelligence, machine learning, and predictive analytics.
- Examination of challenges associated with CDSS implementation, such as system
complexity, information overload, and clinician resistance.
- Suggestions for future research directions and strategies to enhance the usability,
effectiveness, and adoption of CDSS in hospital management.

Title: "Telemedicine and Remote Monitoring Technologies in Hospital

Management: Opportunities and Challenges"
- Authors: Wang, L., & Lee, S.
- Date: 2019
- Introduction to telemedicine and remote monitoring technologies and their potential to
revolutionize healthcare delivery.
- Review of studies evaluating the efficacy of telemedicine interventions in improving
access to care, reducing hospital readmissions, and enhancing patient outcomes.
- Discussion on the role of telemedicine in addressing healthcare disparities, particularly
in underserved and rural communities.
- Analysis of challenges associated with telemedicine adoption, including regulatory
barriers, reimbursement issues, and technological limitations.
- Recommendations for policymakers, healthcare providers, and technology vendors to
overcome barriers and maximize the benefits of telemedicine in hospital management.

Title: "Patient Engagement Strategies in Hospital Management: A Review of Best

Practices and Implementation Challenges"
- Authors: Kim, Y., & Chang, H.
- Date: 2021
- Overview of patient engagement strategies and their importance in promoting active
participation in healthcare decision-making.
- Review of evidence supporting the effectiveness of patient engagement interventions in
improving health outcomes, reducing healthcare costs, and enhancing patient satisfaction.
- Discussion on best practices for implementing patient engagement strategies, including
patient portals, mobile health applications, and shared decision-making tools.
- Examination of barriers to patient engagement, such as health literacy, digital divide,
and provider resistance to patient involvement.
- Recommendations for healthcare organizations to develop and implement effective
patient engagement strategies, taking into account the unique needs and preferences of
diverse patient populations.

2.6 Problem analysis and Likely Benefits based on Literature

Reviews
 Problems:-
1. Inefficiencies in Administrative Processes: Literature reveals that traditional
paper-based systems and fragmented digital solutions lead to inefficiencies in
hospital administrative tasks such as patient registration, appointment scheduling,
and billing.

2. Data Management Challenges: Studies indicate challenges in managing patient

data accurately and securely, especially with the increasing volume of electronic
health records (EHRs) and the need for interoperability among different systems.
 3. Limited Clinical Decision Support: While clinical decision support systems
(CDSS) show promise in aiding healthcare providers, barriers such as system
complexity and information overload hinder their widespread adoption and
effectiveness.

4. Telemedicine Implementation Barriers: Despite the potential benefits of

telemedicine in extending healthcare services, regulatory barriers, reimbursement
issues, and technological limitations pose challenges to its successful
implementation in hospital management.
 Benefits:-
1. management systems can streamline administrative workflows, reduce manual
errors, and improve efficiency in tasks such as patient registration, scheduling,
and billing.

2. Improved Data Management: Adoption of modern systems can enhance the

accuracy, integrity, and security of patient data through centralized electronic
health records (EHRs) and robust data management protocols.

3. Enhanced Clinical Decision-Making: Integration of clinical decision support

systems (CDSS) can provide healthcare providers with timely and evidence-based
decision support, leading to improved clinical outcomes and patient safety.

4. Expanded Access to Care: Telemedicine technologies offer the potential to

extend healthcare services beyond traditional settings, enabling remote
consultations, monitoring, and interventions, thereby improving access to care,
particularly in underserved communities
 Chapter-3
SYSTEM
ANALYSIS AND
DESIGN
3.1 Requirement Specification and feasibility study

Before going to develop the software of our system, it is needed to decide the
feasibility of our system regarding the following aspects,

• Technical Feasibility:
To make our system technically Feasible, the following resources both
hardware software along with required technology are analysed / assessed to develop
the project. Along with this, we developed our website and software’s technical skills
and capabilities regarding whether existing technology can be used or not, maintenance
and up-gradation are easy or not for chosen technology, etc.

Sr. Name of
Specification Cost Available
No. Equipment
Hardware Specifications
I5 processor, 8 GB
1 Laptop / Desktop RAM, Kbd, Mouse, Rs 73000 Yes
540 GB HDD
Software Specifications
2 Software Esp8266 Visual Studio - Yes
3 Software WordPress Rs 500 Yes
4 Software Xampp Server - Yes
5 Domain WordPress Rs 3000 Yes
Windows 10 proper
6 Operating System - Yes
setup
7 Database MySQL - Yes
8 Domain WordPress Freeware Yes
9 Code Editor Visual Studio Freeware Yes
10 Web Server XAMPP Server Freeware Yes
Table 3: Technical and Economic Feasibility
• Operational Feasibility:
Operational Feasibility provides a degree of service to the user. It is
analysed along with how easily users can operate after the deployment of the
project. The operational scope determines the following,
• Usability of a product,
• Determining whether or not the suggested solution for the software development
team is acceptable.
In our system, the following are the two types of users using manufactured hardware
Technical User Operations
• Register or signup
• Login to the system
• Book the appointments
Admin User Operations
• Login to the system
• Authenticate user
• Manage doctors appointments and sessions
• Economic Feasibility:
As Economic Feasibility studies the cost and benefit of the project. The
cost of material used in the project is less and the software used is open source. Also
hosting platform charges are very less as compared to other hosting platforms, hence
our project is less economical than traditional systems, as the software cost is nearly
Rs. 3500/-.
• Schedule Feasibility:
 In Schedule Feasibility Study mainly timelines/deadlines are analysed for the
project which includes how many times teams will take to complete a project which has a
great impact on the organization as the purpose of the project may fail if it can’t be
completed on time. Following is our schedule for the project.
Table 4: Schedule Feasibility
3.2 Design Of System
3.2.1 Software Module
Our system is going to create by four modules as follows:
 User registration: The system allows new users to register online and provide
registration form.

Expected schedule of Project completion

Phases / Module Expected Date of Completion

Module1: Home page, create design of homepage. 10 March 2024

Module2:Customer User Module, Interfacing and

20 March 2024
Connecting with Database

Module3:Supplier User Module 1 April 2024

Module4: Admin Module, Dashboard crating. 20 April 2024

Hypothesis testing and results analysis 28 April 2024

Project Report 21 May 2024

Figure No. 1 User Registration Module

 User login: The system will allow user to login through its first page means
Homepage.

Figure No. 2 Login Module

 System Flow Diagram:


 Figure No.3 System Flow Diagram

3.2.2 Use Case Diagram: The system will provide the following functionalities,

1. User registration: The system allows new users to register online and
provide registration form.
2. User login: The system will allow user to login through its first page.
3. Online reservation of appointments: patients will be able to use the
system to choose their personlised doctors for their diseases
4. Customer complaints and feedback: The system will allow customers
to send complaints and feedback.
Use case diagram of Admin and User
 Figure No.4 Admin & User

3.2.3 Activity Diagram

1) Use-case Diagram:-Customer User Module

 Figure No.6 User Module

3.3 Flow chart:-

Figure No.8 Login & Registration
 Chapter-4
IMPLEMENTATION
AND TESTING

4.1 System Development:

A software development process is a process of dividing software
development work into smaller, parallel, or sequential steps or sub-processes to
improve design, product management. It is also known as a software development life
cycle (SDLC). The methodology may include the predefinition of specific
deliverables and artifacts that are created and completed by a project team to develop
or maintain an application.

The waterfall model is used for a sequential development approach, in which

development is seen as flowing steadily downwards (like a waterfall) through several
phases, typically:

Requirements analysis resulting in a softwar

e requirements specification

Software design

Implementation

Testing

Integration, if thereare multiple subsystems

Deployment (or Installation)

Maintenance

Figure No 9: System Development

4.2 Testing Of Website And the versions of software used in it:

== Server Environment ==
Operating System: Windows
Software: Apache
MySQL version: MariaDB Server v10.4.17
PHP Version: 7.4.8
 PHP Memory Limit: 128M
PHP Max Input Vars: 8000
PHP Max Post Size: 20M
GD Installed: Yes
ZIP Installed: Yes
Write Permissions: All right
Elementor Library: Connected

== WordPress Environment ==
Version: 6.2
WP Multisite: No
Max Upload Size: 10 MB
Memory limit: 128M
Max Memory limit: 128M
Permalink Structure: /%year%/%monthnum%/%day%/%postname%/
Language: en-US
Timezone: 0
Admin Email: drg9325@gmail.com
Debug Mode: Inactive

== User ==
Role: administrator
WP Profile lang: en_US
User Agent: Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36
(KHTML, like Gecko) Chrome/112.0.0.0 Safari/537.36

== Active Plugins ==
CartFlows
Version: 1.11.9
Author: CartFlows Inc
Classic Editor
Version: 1.6.3
Author: WordPress Contributors
 Figure No 10: Active Plugins

4.3 Display PHP Version

Login/Signup Popup
Version: 2.3
Author: XootiX

Figure No 11: Dashboard Test

4.4 Waterfall Model
== Elementor Experiments ==
Optimized DOM Output: Active
Improved Asset Loading: Active
Improved CSS Loading: Active
Inline Font Icons: Active
Accessibility Improvements: Active
Additional Custom Breakpoints: Active
admin_menu_rearrangement: Inactive by default
Flexbox Container: Active
Upgrade Swiper Library: Active
Container Grid: Inactive by default
Editor Top Bar: Inactive by default
Landing Pages: Active
Nested Elements: Active
Lazy Load Background Images: Active

Figure No 12: Website Development

4.5 Website Log Preview Updation test:-

== Log ==
Log: showing 16 of 162023-03-02 07:35:03 [info] Elementor data updater process has
been queued. [array (
'plugin' => 'Elementor',
'from' => '3.11.2',
'to' => '3.12.0-dev4',
)]
2023-03-02 07:35:03 [info] elementor::elementor_updater Started
2023-03-02 07:35:03 [info] Elementor/Upgrades - _on_each_version Start
2023-03-02 07:35:03 [info] Elementor/Upgrades - _on_each_version Finished
2023-03-02 07:35:03 [info] Elementor data updater process has been completed. [array (
'plugin' => 'Elementor',
 'from' => '3.11.2',
'to' => '3.12.0-dev4',
)]
2023-03-02 07:35:05 [info] Elementor data updater process has been queued. [array (
'plugin' => 'Elementor',
'from' => '3.11.2',
'to' => '3.12.0-dev4',
)]
2023-04-28 06:30:32 [info] elementor::elementor_updater Started
2023-04-28 06:30:32 [info] Elementor/Upgrades - _on_each_version Start
2023-04-28 06:30:32 [info] Elementor/Upgrades - _on_each_version Finished
2023-04-28 06:30:32 [info] Elementor data updater process has been completed. [array (
'plugin' => 'Elementor',
'from' => '3.12.0-dev4',
'to' => '3.12.1',
)]
2023-04-15 09:50:04 [info] Elementor data updater process has been queued. [array (
'plugin' => 'Elementor',
'from' => '3.12.1',
'to' => '3.13.0-dev2',
)]

Figure No 13: Network Speed Testing

4.6 Login &Registration System:

1. Test Cases for Registration Page:

Features to be
Test Cases
Tested
 1. Test that the email field is in the correct format.
2. Test that the email address is in the correct format.
3. Enter an invalid email address in the email field.
Email field 4. Enter an email address with special characters in the
email field.
5. Enter an email address with spaces in the email field.
6. Leave the email field blank.
1. Test that the terms and conditions are accepted
2. The user should be able to read the terms and conditions
before ticking the checkbox.
3. The user should be able to tick the checkbox only if
they have read and agreed to the terms and conditions.
4. The user should be able to see a confirmation message
Terms & conditions
after ticking the checkbox and submitting the form.
5. Verify that the terms and conditions are visible on the
registration page.
6. Verify that the terms and conditions can be scrolled
through.
7. Verify that the terms and conditions can be printed.
1. Password should be a minimum of 8 characters long.
2. Password should have at least 1 uppercase letter.
3. Password should have at least 1 lowercase letter.
Password 4. Password should have at least 1 number.
5. Password should have at least 1 special character.
6. Password should not be the same as username.
7. Test the password and confirm password fields match.
Confirmation Test that the user can see a confirmation message after a
message successful registration
1. Enter all valid details in the registration form and check
if the user is able to register successfully
Registration form 2. Enter all invalid details in the registration form and
check if the user is able to register successfully
3. Try to register with an already existing username and
check if the user is able to register successfully
Login page Test that the user is redirected to the login page after a
successful registration
Table 5: Registration Page Test Cases
1. Test Cases for Login Page:

Features to be Tested Test Cases

1. Test that the email is present.
2. The email field should accept valid email addresses.
3. The email field should not accept invalid email
 addresses.
Email field 4. The email field should display an error message when
an invalid email address is entered.
5. The email field should be case-insensitive.

1. Test that the password field is present.

2. Test that the password field is masked.
3. Test that a username field may allow for alphanumeric
Password characters.
4. Test that the password field may require only numbers
or letters.
5. Make sure that the password field is present and that it
is labeled correctly.
6. Test that the password field accepts input.
7. Ensure that the password field masks input so that it is
not visible as plain text.
8. Confirm that the password field has the correct level of
security by testing for minimum length and character
type requirements.
9. Verify that the password field does not auto-fill when
using a password manager.
10. Test that the password field correctly validates input
when submitting the form.

1. Test that the user is able to login with the correct

credentials.
2. Test that the email and password fields are mandatory.
Login Form 3. Test that the user is redirected to the correct page after
login.
4. Enter all invalid details in the login form and check if
the user is able to log in successfully.
5. Test that the user can see a forgot password link on the
login page.
6. Try to log in with an already existing username and
check if the user is able to log in successfully.

Error message Test that the user receives an error message if the login details
are incorrect.

Table 6: Login Page Test Cases

 Figure No 14: Login Page Queries

Figure No 15: Registration Page Queries

Chapter-5
RESULT &
OUTPUT
5.1 Website Homepage
 Home Page:
This is home Page with some animations. It also displays Upcoming events.

Figure No 16: All Doctors Profile

Figure No 17: Scheduled Sessions

Figure No 18: Patients Booking History

 Registration Page:
A signup page (also known as a registration page) enables users and
organizations to independently register and gain access to the system. Enter your
Username, Email Address and, Password. Register Carefully.

Figure No 20: Registration Form

 Login Form:
The login page allows a user to gain access to an application by entering their
username and password

Figure No 18: Login Form

Figure No 21: Login Form

 Password Reset:
User can change the password using forgot password.

Figure No 19: Password Reset

Figure No 20: Forgot Password

 User Account:
User can see his all details and also change his info and profile.

Figure No 22: User Account

 Figure No 23: Clients Reviews

Figure No 24: Admin Dashboard

Figure No 25: Doctors Appointment List

Figure No 26: Patients Management

 Chapter-6
CONCLUSION

1.1 Conclusion
 The development and implementation of a hospital management website present a
transformative opportunity for modern healthcare facilities. By addressing inefficiencies in
administrative processes, improving data management, enhancing clinical decision-
making, expanding access to care through telemedicine, and empowering patient
engagement, such a system can significantly improve overall healthcare delivery.

Based on the literature reviews, it is evident that traditional methods of hospital

management are fraught with challenges such as inefficiencies, data management issues,
limited clinical decision support, barriers to telemedicine implementation, and deficits in
patient engagement. The integration of comprehensive hospital management systems offers
a viable solution to these problems.

Streamlining administrative workflows will reduce manual errors and enhance efficiency,
while improved data management protocols will ensure the accuracy and security of
patient records. Enhanced clinical decision-making support will aid healthcare providers in
delivering better patient outcomes. Furthermore, telemedicine technologies will extend
healthcare services to underserved populations, and robust patient engagement strategies
will promote active patient participation in their healthcare journey.

1.2 Further Scope

1. Artificial Intelligence Integration: Implement AI and machine learning to enhance

diagnostics, automate tasks, and personalize patient treatment plans.

2. Improved Interoperability: Develop standardized data exchange protocols to ensure

seamless sharing of patient information across different healthcare systems.

3. Telehealth Expansion: Broaden telehealth services for more comprehensive remote

monitoring and virtual consultations, improving access to care.

4. Advanced Data Analytics: Use predictive analytics for better insights into patient care
and operational efficiency, optimizing hospital resources.

5. Enhanced Patient Engagement: Develop robust patient portals and mobile apps to
empower patients with real-time access to health information and self-management
tools.
APPENDICES
APPENDICES-A
LITERATURE
PAPERS