Table of Contents
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The AI Edge is an Akraino approved blueprint family and part of Akraino Edge Stack, which intends to provide an open source MEC platform combined with AI capacities at the Edge, and could be used for safety, security, and surveillance. The MEC platform, which named ote-stack, targets on shielding the heterogeneous characteristics through underlying hardware virtualization and providing an unified access for cloud edge, mobile edge and private edge. In addition, the AI Edge utilizes the cluster management and intelligent scheduling of multi-tier clusters to enable low-latency, high-reliability and cost-optimal computing support for running AI applications at the edge. At the same time, it makes device-edge-cloud collaborative computing possible.
Application scope of Intelligent Vehicle-Infrastructure Cooperation System(I-VICS): including airport and station passenger flow grooming system, urban traffic intelligent dispatching system, expressway intelligent dispatching system, operation vehicle dispatching management system, motor vehicle automatic control system, etc. The function of intelligent transportation system: it improves the efficiency of transportation, alleviates traffic congestion, improves the capacity of road network, reduces traffic accidents, reduces energy consumption and environmental pollution through the harmonious and close cooperation of people, vehicles and roads.
Use Case
Use case 1: Safety Of The Intended Functionality (SOTIF)
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Use case 2: Cooperative intelligent transportation system:vehicular communication data exchange system
Vehicle road collaboration platform integrates sensing, communication, computing, control and other technologies, based on standardized communication protocol, realizes mutual mapping between physical space and information space, including "vehicle, traffic, environment" and other elements, standardized interaction and efficient collaboration, and uses cloud computing big data capabilities to solve systematic resource optimization and configuration problems.
The platform provides dynamic basic data such as vehicle operation, infrastructure, traffic environment and traffic management for intelligent vehicle and its users, management and service institutions,Application scenario development, verification and commercial application of vehicle communication system based on various communication modes.
The vehicular communication data exchange system to support following functions:
No. | Classification | Communication | Application |
1 | Safety | V2V | Forward collision warning |
2 | V2V/N2I | Intersection collision warning | |
3 | V2V/N2I | Left turn assis | |
4 | V2V | Blind area warning / lane change assistance | |
5 | V2V | Reverse overtaking warning | |
6 | V2V-Event | Emergency braking warning | |
7 | V2V-Event | Warning of abnormal vehicles | |
8 | V2V-Event | Vehicle out of control warning | |
9 | V2I | Warning of road danger | |
10 | V2I | Speed limit warning | |
11 | V2I | Red light warning | |
12 | V2P/V2I | Collision warning for vulnerable traffic participants | |
13 | Efficiency | V2I | Green Wave Speed Guidance |
14 | V2I | In-vehicle signs | |
15 | V2I | Congestion alert ahead | |
16 | V2V | Emergency vehicle reminder | |
17 | Information service | V2I | Car near field payment |
Use case 3: Autonomous Valet Parking
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< Blue print's relation to Akraino generic architecture, how it relates to it >
< This section will use the Akraino architecture document as reference>
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