System engineering Management Plan
Work Breakdown Structure
1. System Product
Level 1
Level 2
Level 3
Level 4
1.1.1Controller
1.1 ABS
1.1.2 Wheel Speed Sensor
1. ESP
1.2.1 Steering angle sensor
1.2 Traction Control
1.2.2 Yaw rate sensor
1.1.1.1 Functional design
1.1.1.2 Engineering design
1.1.1.3 Fabrication
1.1.1.4 Unit text
1.1.1.5 Documentation
1.1.2.1 Functional design
1.1.2.2 Engineering design
1.1.2.3 Product Development
1.1.2.4 Documentation
1.2.1.1 Functional design
1.2.1.2 Engineering design
1.2.1.3 Product Development
1.2.1.4 Documentation
1.2.2.1 Engineering design
1.2.2.2 Product development
1.2.2.3 Documentation
2. System Support
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Analog to digital conversion of Sensors
Research and development of latest technologies to increase efficiency of the overall system
Pulse width modulation for controlling actuators
Review, Verification, Digital Validation and Testing
Standard qualification through technical assessment
Safety inspection and safety audits
Periodic skill training and reviews
Service manual and documentation
Maintainability of the software during entire lifecycle
3. System Testing
3.1 Component testing : 3.1.1 Manual Review of requirements
3.1.2 Digital Validation of components such as wheel speed sensors, yaw rate
sensors,etc.
3.1.3 Quality testing of the components
3.2 Integration testing : 3.2.1 Stepwise integration testing of components and subsystems
3.2.2 Verification of proper functioning of subsystems such as ABS, Tracking control
3.3.3 Standard qualification and safety audits
3.3 System testing :
3.3.1 Functional verification of a system as a whole
3.3.2 Evaluation of system test results
3.3.3 Quality testing of the system product
3.3.4 Safety inspection and safety audits
3.4 Operation testing : 3.4.1 Test effectiveness of the system
& Evaluation
3.4.2 System test results evaluation
3.4.3Testing of the system in low power modes
3.5 Acceptance testing : 3.5.1 Checks for proper installation of delivered systems
3.5.2 Safety inspection and safety check
Resource Allocation :
Resources
Electronic components
Software/Firmware
Mechanical design
Skilled manpower
Electrical components
Fabrication
Utilization
Microprocessor, speed sensors, steering angle sensors, yaw rate sensors
Flash codes, boot codes, softwares to operate the controller
Includes all the mechanical components and housing of the system
Developers for development, test engineers for testing and quality
enhancement of the products
Power supply, current and voltage sources
Fabrication and integration of subsytems to create EPS
Systems Engineering schedule :