TY - JOUR
T1 - A demonstration of vector symbolic architecture as an effective integrated technology for AI at the network edge
AU - Bent, Graham
AU - Davies, Cai
AU - Roig Vilamala, Marc
AU - Li, Yuhua
AU - Preece, Alun
AU - Di Caterina, Gaetano
AU - Vicente Sola, Alex
AU - Kirkland, Paul
AU - Pearson, Gavin
AU - Tutcher, Benomy
N1 - The contents include material subject to ©Crown copyright (2024), Dstl. This information is licensed under the Open Government Licence v3.0. To view this licence, visit https://www.nationalarchives.gov.uk/doc/open-governmentlicence/
Paper number: DSTL/CP161733.
PY - 2024/11/13
Y1 - 2024/11/13
N2 - Vector Symbolic Architecture (VSA), a.k.a. Hyperdimensional Computing has transformative potential for advancing cognitive processing capabilities at the network edge. This paper presents a technology integration experiment, demonstrating how the VSA paradigm offers robust solutions for generation-after-next AI deployment at the network edge. Specifically, we show how VSA effectively models and integrates the cognitive processes required to perform intelligence, surveillance, and reconnaissance (ISR). The experiment integrates functions across the observe, orientate, decide and act (OODA) loop, including the processing of sensed data via both a neuromorphic event-based camera and a standard CMOS frame-rate camera; declarative knowledge-based reasoning in a semantic vector space; action planning using VSA cognitive maps; access to procedural knowledge via large language models (LLMs); and efficient communication between agents via highly-compact binary vector representations. In contrast to previous ‘point solutions’ showing the effectiveness of VSA for individual OODA tasks, this work takes a ‘whole system’ approach, demonstrating the power of VSA as a uniform integration technology.
AB - Vector Symbolic Architecture (VSA), a.k.a. Hyperdimensional Computing has transformative potential for advancing cognitive processing capabilities at the network edge. This paper presents a technology integration experiment, demonstrating how the VSA paradigm offers robust solutions for generation-after-next AI deployment at the network edge. Specifically, we show how VSA effectively models and integrates the cognitive processes required to perform intelligence, surveillance, and reconnaissance (ISR). The experiment integrates functions across the observe, orientate, decide and act (OODA) loop, including the processing of sensed data via both a neuromorphic event-based camera and a standard CMOS frame-rate camera; declarative knowledge-based reasoning in a semantic vector space; action planning using VSA cognitive maps; access to procedural knowledge via large language models (LLMs); and efficient communication between agents via highly-compact binary vector representations. In contrast to previous ‘point solutions’ showing the effectiveness of VSA for individual OODA tasks, this work takes a ‘whole system’ approach, demonstrating the power of VSA as a uniform integration technology.
KW - vector symbolic architectures
KW - hyperdimensional computing
KW - Artificial Intelligence
KW - cognition
KW - OODA
KW - ISR
UR - https://spie.org/spie-sensors-imaging/presentation/A-demonstration-of-vector-symbolic-architecture-as-an-effective-integrated/13206-39#_=_
M3 - Conference article
SN - 0277-786X
VL - 13206
JO - Proceedings of SPIE: The International Society for Optical Engineering
JF - Proceedings of SPIE: The International Society for Optical Engineering
M1 - 1320613
T2 - Artificial Intelligence for Security and Defence Applications II
Y2 - 17 September 2024 through 19 September 2024
ER -