SimulSecure π€ Cyber Investigation 3D RPG
SimulSecure π€ Cyber Investigation 3D RPG
SimulSecure π€ Cyber Investigation 3D RPG
CapyPop's Adventures team, College Students in Cyber Security, General Users
On-going
Game Dev + Information Security Forensics
CapyPop's Adventures team, College Students in Cyber Security, General Users
On-going
Game Dev + Information Security Forensics
CapyPop's Adventures team, College Students in Cyber Security, General Users
On-going
Game Dev + Information Security Forensics
SIMULSECURE RPG - Revolutionizing Cybersecurity Education
Introduction π
Embark on a journey into the realm of cybersecurity education with SIMULSECURE, a groundbreaking project led by Han, Luan, and cybersecurity expert collaborators. Addressing the critical need for innovative training methods, SIMULSECURE offers a dynamic, hands-on, and game-based solution to immerse learners in the evolving landscape of cybersecurity threats.
Project Phases π
Planning & Feasibility (Phase 1):
In this phase, we conduct a comprehensive feasibility study using the PIECES framework (Performance, Information, Economics, Control, Efficiency, and Services). Our mission is to ensure economic, time, and operational feasibility, shaping cutting-edge tools for defenders of digital realms.
Analysis (Phase 2):
Delving into the complexity of game development, this phase focuses on user engagement. Technical feasibility ensures we use tools like Unity, C-Sharp, Python, GitHub, Plastic SEM, Jira, and AWS for seamless development.
Design & Development (Phase 3):
Crafting an interactive and immersive cybersecurity experience, this phase involves developing a single scalable map, establishing a vibrant in-game market, and refining the general interface.
4. Testing, Implementation & Maintenance (Phase 4):
Testing is key to breaking and securing the system. We employ various testing suites to ensure functionality, security, and scalability. Deployment involves user onboarding, education, and training. The maintenance strategy is dynamic fusion, ensuring perpetual refinement to meet the ever-changing landscape.
Software Process Model π
Choosing the Incremental Model for its adaptability, CYMOSECURE thrives in developing a fun and engaging game. Embracing agile development methodologies, particularly Scrum, we focus on collaboration, adaptability, and delivering shippable product increments.
System Context Diagram & Entity Relationship Diagram π οΈ
The main process involves player interactions, AWS Cloud Server for secure data storage, and Google Authentication API for seamless logins. The entity relationship diagram illustrates player actions, map associations, and menu options.
Testing Plans & Procedures π§ͺ
Thorough testing includes suites for the general interface, in-game market, and scalability, ensuring visual integrity, UI consistency, security, and immersive gameplay.
Software Deployment, User Acceptance Testing, & Software Maintenance π
Deploying SIMULSECURE involves preparing the system for production, onboarding users, and ensuring all functions work as intended. User acceptance testing verifies success, leading to ongoing software maintenance with a focus on corrective, adaptive, and perfective changes.
Conclusion π
Join us on this journey of innovation and improvement with SIMULSECURE, where we revolutionize cybersecurity education, one engaging game at a time.
SIMULSECURE RPG - Revolutionizing Cybersecurity Education
Introduction π
Embark on a journey into the realm of cybersecurity education with SIMULSECURE, a groundbreaking project led by Han, Luan, and cybersecurity expert collaborators. Addressing the critical need for innovative training methods, SIMULSECURE offers a dynamic, hands-on, and game-based solution to immerse learners in the evolving landscape of cybersecurity threats.
Project Phases π
Planning & Feasibility (Phase 1):
In this phase, we conduct a comprehensive feasibility study using the PIECES framework (Performance, Information, Economics, Control, Efficiency, and Services). Our mission is to ensure economic, time, and operational feasibility, shaping cutting-edge tools for defenders of digital realms.
Analysis (Phase 2):
Delving into the complexity of game development, this phase focuses on user engagement. Technical feasibility ensures we use tools like Unity, C-Sharp, Python, GitHub, Plastic SEM, Jira, and AWS for seamless development.
Design & Development (Phase 3):
Crafting an interactive and immersive cybersecurity experience, this phase involves developing a single scalable map, establishing a vibrant in-game market, and refining the general interface.
4. Testing, Implementation & Maintenance (Phase 4):
Testing is key to breaking and securing the system. We employ various testing suites to ensure functionality, security, and scalability. Deployment involves user onboarding, education, and training. The maintenance strategy is dynamic fusion, ensuring perpetual refinement to meet the ever-changing landscape.
Software Process Model π
Choosing the Incremental Model for its adaptability, CYMOSECURE thrives in developing a fun and engaging game. Embracing agile development methodologies, particularly Scrum, we focus on collaboration, adaptability, and delivering shippable product increments.
System Context Diagram & Entity Relationship Diagram π οΈ
The main process involves player interactions, AWS Cloud Server for secure data storage, and Google Authentication API for seamless logins. The entity relationship diagram illustrates player actions, map associations, and menu options.
Testing Plans & Procedures π§ͺ
Thorough testing includes suites for the general interface, in-game market, and scalability, ensuring visual integrity, UI consistency, security, and immersive gameplay.
Software Deployment, User Acceptance Testing, & Software Maintenance π
Deploying SIMULSECURE involves preparing the system for production, onboarding users, and ensuring all functions work as intended. User acceptance testing verifies success, leading to ongoing software maintenance with a focus on corrective, adaptive, and perfective changes.
Conclusion π
Join us on this journey of innovation and improvement with SIMULSECURE, where we revolutionize cybersecurity education, one engaging game at a time.
SIMULSECURE RPG - Revolutionizing Cybersecurity Education
Introduction π
Embark on a journey into the realm of cybersecurity education with SIMULSECURE, a groundbreaking project led by Han, Luan, and cybersecurity expert collaborators. Addressing the critical need for innovative training methods, SIMULSECURE offers a dynamic, hands-on, and game-based solution to immerse learners in the evolving landscape of cybersecurity threats.
Project Phases π
Planning & Feasibility (Phase 1):
In this phase, we conduct a comprehensive feasibility study using the PIECES framework (Performance, Information, Economics, Control, Efficiency, and Services). Our mission is to ensure economic, time, and operational feasibility, shaping cutting-edge tools for defenders of digital realms.
Analysis (Phase 2):
Delving into the complexity of game development, this phase focuses on user engagement. Technical feasibility ensures we use tools like Unity, C-Sharp, Python, GitHub, Plastic SEM, Jira, and AWS for seamless development.
Design & Development (Phase 3):
Crafting an interactive and immersive cybersecurity experience, this phase involves developing a single scalable map, establishing a vibrant in-game market, and refining the general interface.
4. Testing, Implementation & Maintenance (Phase 4):
Testing is key to breaking and securing the system. We employ various testing suites to ensure functionality, security, and scalability. Deployment involves user onboarding, education, and training. The maintenance strategy is dynamic fusion, ensuring perpetual refinement to meet the ever-changing landscape.
Software Process Model π
Choosing the Incremental Model for its adaptability, CYMOSECURE thrives in developing a fun and engaging game. Embracing agile development methodologies, particularly Scrum, we focus on collaboration, adaptability, and delivering shippable product increments.
System Context Diagram & Entity Relationship Diagram π οΈ
The main process involves player interactions, AWS Cloud Server for secure data storage, and Google Authentication API for seamless logins. The entity relationship diagram illustrates player actions, map associations, and menu options.
Testing Plans & Procedures π§ͺ
Thorough testing includes suites for the general interface, in-game market, and scalability, ensuring visual integrity, UI consistency, security, and immersive gameplay.
Software Deployment, User Acceptance Testing, & Software Maintenance π
Deploying SIMULSECURE involves preparing the system for production, onboarding users, and ensuring all functions work as intended. User acceptance testing verifies success, leading to ongoing software maintenance with a focus on corrective, adaptive, and perfective changes.
Conclusion π
Join us on this journey of innovation and improvement with SIMULSECURE, where we revolutionize cybersecurity education, one engaging game at a time.
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