The origins of ubiquitous computing research at PARC in the late 1980s
IBM Systems Journal
The legal crisis of next generation robots: on safety intelligence
Proceedings of the 11th international conference on Artificial intelligence and law
Governing lethal behavior: embedding ethics in a hybrid deliberative/reactive robot architecture
Proceedings of the 3rd ACM/IEEE international conference on Human robot interaction
The Future of the Internet--And How to Stop It
The Future of the Internet--And How to Stop It
RoboEarth: connecting robots worldwide
Proceedings of the 2nd International Conference on Interaction Sciences: Information Technology, Culture and Human
Cognitive automata and the law: electronic contracting and the intentionality of software agents
Artificial Intelligence and Law
SP 800-145. The NIST Definition of Cloud Computing
SP 800-145. The NIST Definition of Cloud Computing
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One of the reasons that future robots will enhance their intelligence and actions in an unstructured environment is because of their "networked" feature. Current robot designs have difficulty in understanding unstructured environments due to the inherent diversity and unpredictability of phenomena in the real world. However, new developments such as ubiquitous computing, cloud computing, the Internet of things and next-generation internet technologies will make it easier for networked robots to obtain structured information about their physical environment. The formation of cloud-enabled robotics by advanced technology will be tightly integrated into the virtual and real world, and this will strengthen the impact of cyberspace to the real world. Although these developments may help reduce Open-Texture Risk from the networked robots, risk will be transferred from the physical world into the virtual world. In this paper, we will try to address some of the resulting legal implications. This paper is divided into four parts, the first part defines the meaning of cloud-enabled robotics; the second part analyzes how the Collective Dynamics derived from virtual and real world with autonomous behaviors by intelligent robots affect Open-Texture Risk to expand a Larger Range and bring a Deeper Impact; the third part explains the dispute of legal issues in future technology of cloud-enabled robotics; the final part analyzes the Safety Intelligence of cloud-enabled robotics in a long-term perspective, and the theoretical control framework that we propose in solving Open-Texture Risk.