Applications of Reshape's Technology
Reshape's technology was developed to be domain-agnostic. Here are some of the most popular application fields:
Automotive
Nuclear
Avionics
Aerospace
Manufacturing
Consumer Electronics
Railways
How It Works
What you provide: Project Documentation
- Requirements
- Functional and/or technical specifications
- Technical drawings
- Any other relevant project information
What we offer: Risk-analysis Co-pilot
- A platform to manage your company projects
- Application at any stage of the project life cycle
- Automation of common industry risk analysis methods
- Compliance with applicable safety standards
What you get: Automated Risk Analysis
- Direct interfaces with your company workflows and tools
- Intuitive UI to navigate complex projects with thousands of risks
- One-click updates when new project information is available
- Standardized risk analysis reports
Why Choose Us
Explainable AI
Reasoning of AI models transparently exposed to the users and domain experts.
Automated Risk Identification
Automated identification of high uncertainty areas for the risk assessment.
Decision Traceability
Traceability of AI-supported decisions throughout the project evolution.
Traditional Ways of Risk Analysis (Before Us)
FMEA (Failure Modes and Effects Analysis)
Identifies potential failure modes within a system and assesses their impact to prioritize mitigation efforts.
Pros:
- Systematic, helps prioritize risks
- Improves reliability
Cons:
- Time-consuming
- May miss complex interactions
FMECA (Failure Modes, Effects, and Criticality Analysis)
Extends FMEA by adding a criticality analysis to quantify the severity and likelihood of failures.
Pros:
- Detailed prioritization
- Quantifies risk
- Enhances decision-making
Cons:
- More complex and resource-intensive than FMEA
- Relies on accurate data
HAZOP (Hazard and Operability Study)
Examines processes to identify hazards and operability issues through systematic deviation analysis.
Pros:
- Thorough
- Identifies operational issues
- Enhances safety
Cons:
- Requires expert knowledge
- Labor-intensive
- May be subjective
STPA (System-Theoretic Process Analysis)
Uses a systems theory approach to identify unsafe interactions and control flaws in complex systems.
Pros:
- Addresses complex interactions
- Focuses on control systems
- Adaptable to various domains
Cons:
- Requires deep understanding of systems theory
- Only qualitative
We are providing withGen-AI
Reduction of Engineering Costs
- Automation of time-consuming and error-prone tasks
- Processing of technical documentation
- Risk identification and classification
- Generation of risk analysis reports
Reduction of Critical Failures
- Ability to scan existing company knowledge and apply it to new projects
- Seamless scaling with project complexity
- One-click updates when new project information is available
Improved Knowledge Management
- Indefinite retention of organizational knowledge
- Collaborative review of risk analysis results with key stakeholders