Project Technical Lead: Parag Beeraka
Attributes | Description |
Type | New |
Industry Sector | IoT and Infrastructure Smart Edge |
Business driver | Surveillance camera for consumers, commercial and industrial segments |
Business use cases | Expedite the growth of cameras with more machine learning capabilities to make more decisions at the edge. Use cloud services for making cameras more future proof |
Business Cost - Initial Build Cost Target Objective | Cost of a proof of concept on existing Commercial Off the Shelf hardware (Reference designs) |
Business Cost – Target Operational Objective | Varies widely depending on use-cases and the associated accompanying elements. |
Security need | Security mechanisms need to be implemented at each layer of abstraction. PSA and PARSEC both provide a security framework. |
Regulations | Varies depending on local regulations, GDPR etc. |
Other restrictions | N/A |
Additional details | Project Cassini is the baseline for this initiative and is a open, collaborative, standards-based initiative to deliver a cloud-native software experience across a secure Arm edge ecosystem. Whether exploring the impacts of urbanization and climate change with software-defined sensor networks, pinpointing origins of power outages in smart grids with data provenance, or enhancing public safety initiatives through data streaming, Project Cassini leverages the power of diverse Arm-based platforms to create a secure foundation for edge applications. |
Family - Project Cassini - IoT and Infrastructure Edge
Use Case Attributes | Description | Informational |
Type | New | |
Blueprint Family - Proposed Name | Project Cassini - IoT and Infrastructure Edge | There are many possible UCs that would be covered under Project Cassini |
Use Case | All of the use cases under Project Cassini | See below |
Blueprint proposed | Software Defined Camera | |
Initial POD Cost (capex) | Varies widely depending on the Blueprint | |
Scale of Servers | Varies widely depending on the Blueprint | |
Applications | Multiple workloads on devices and gateways, | |
Power Restrictions | None/Varies | |
Preferred Infrastructure orchestration | Docker/K8 - Container Orchestration OS - Linux | |
Additional Details |
BluePrint (Species) - Software Defined Camera
Case Attributes | Description | Informational |
Type | New | |
Blueprint Family - Proposed Name | Project Cassini - IoT and Infrastructure Edge Blueprint Family | SC - Smart Camera or other abbreviations |
Use Case | Traffic management to reduce congestion, monitor vehicle violations | With a few modifications, it is possible to change this blueprint to meet many similar Use Cases |
Blueprint proposed Name | Software Defined Camera (SDC) | |
Initial POD Cost (capex) | Existing reference platforms from different ODM's | |
Scale & Type of Server | A server on the edge is not needed | |
Applications | Applications that can be managed remotely using cloud native practices | |
Power Restrictions | NA | None of the devices require power that is outside of a normal wall socket |
Infrastructure orchestration | VM - Linux | |
SDN (Software Defined Networking) | None | |
Workload Type |
| |
Additional Details |
Per Akraino rules, PTL's are self nominated. If there is more than one person self nominated, we will have an election. If there is only nominee, that person will become PTL. To self-nominate, please put a 'Y' in column, otherwise please put a 'N'.
Self Nomination starts on 28 July and will go for one week, ending on 4 Aug 2021.
Committer | Committer Company | Committer Contact Info | Time Zone | Committer Bio | Committer Picture | Self Nominate for PTL (Y/N) |
| Arm | parag.beeraka@arm.com | GMT-8 | Parag Beeraka is the Director of Segment Marketing for IoT Smart Camera business at Arm | Y | ||
| ThunderSoft | GMT+8 | |||||
| xiaojing xu | ThunderSoft | GMT+8 | ||||
| Yan Zhang | China Unicom | GMT+8 | ||||
| Mingxuan Li | China Unicom | GMT+8 | ||||
| Arm | GMT+8 |