Cognitive Computing for Human-Robot Interaction
-10%
portes grátis
Cognitive Computing for Human-Robot Interaction
Principles and Practices
Mittal, Mamta; Roy, Sudipta; Shah, Rajiv Ratn
Elsevier Science & Technology
08/2021
418
Mole
Inglês
9780323857697
15 a 20 dias
680
Descrição não disponível.
1. Introduction to cognitive computing and its various applications Sushila Palwe and Anita Gunjal 2. Recent trends towards cognitive science: from robots to humanized robots Katiyar Sarthak and Katiyar Kalpana 3. Cognitive compyuting in human activity recognition by healthcare robots S. Ravi Shankar, Gopi Battineni, and Mamta Mittal 4. Deep learning-based cognitive state prediction analysis using brain wave signals D. Devi, S. Sophia, and S.R. Boselin Pabhu 5. EEG-based cognitive performance evaluations for mental arithmetic tasks Debatri Chatterjee, Rahul Gavas, Roopkatha Samanta, and Sanjoy Kumar Saha 6. Trust or no trust in chat-bots: a millennial dilemma Shivani Agarwal 7. Cognitive computing in autonomous vehicles Atharva Sandeep Vidwans 8. Optimized navigation using deep learning techniques for automatic guided vehicles Anubha Parashar, Apoorva Parashar, and Lalit Mohan Goyal 9. Vehicular middleware and heuristic approaches for ITS systems of smart cities Rajender Kumar, Ravinder Khanna, and Surender Kumar 10. Error traceability and error prediction using machine learning techniques to improve the quality of vehicle modeling in computer-aided engineering A. Anny Leema, Krishna Sai Narayana, and Subramani Sellaman 11. All about human-robot interaction Kiran Jot Singh, Divneet Singh Kapoor, and Balwinder Singh Sohi 12. Teleportation of human body kinematicss for a tangible humanoid robot control Tutan Nama and Suman Deb 13. Recognition of trivial humanoid group events using clustering and higher order local auto-correlation techniques K. Seemanthini and S.S. Manjunath 14. Understanding the hand gesture command to visual attention model for mobile robot navigation: service robots in the domestic environment E.D.G. Sanjeewa, K.K.L. Herath, B.G.D.A. Madhusanka, H.D.N.S. Priyankara, and H.M.K.K.M.B. Herath 15. Mobile robots for air quality monitoring of landfill sites using the Internet of Things Rajesh Singh, Anita Gehlot, Shaik Vaseem Akram, Prabin Kumar Das, and Sushabhan Choudhury 16. Artificial intelligence and Internet of Things readiness: the inclination for hotels to support a sustainable envoronment Mudita Sinha, Leena N. Fukey, Ashutosh Sinha 17. Design and fabrication of a new multi-function smart trash bin based on the Internet of Things Bo Sun, Quanjin Ma, Hao Yao, Zidong Yang, Da Peng, and M.R.M.Rejab
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D point cloud; Activity recognition; Affect-based trust; Air quality; Arduino uno; Artifact; Artificial Intelligence; Artificial insight; Artificial intelligence; Back propagation; Brain activation; CAE; CAN; CNN; CNN classifier; Chatbots; Cognitive capabilities; Cognitive computing; Cognitive performance; Cognitive science; Cognitive-based trust; Completed local binary pattern; Computational technology; Computer vision; Contextual awareness; Convolutional neural networks; DWT; Data; Deep learning; Deep learning algorithm; Digital computer; ECNN; EEG; End-to-end; Error prediction; Error traceability; Fuzzy c-mean clustering; GAN; Garbage classification; Gesture classification; Gesture teleportation; HCI; HRI; Hand gesture recognition; Healthcare robots; High order local auto-correlation; Hotel management; Human; Human-chatbot interaction; Human-machine interaction; Human-robot collaboration; ITS; Internet of Things; Internet of things; IoT; Kinect camera; Kinetic movements; LGA descriptor; LIDAR; Landfilling sites; Leap motion controller; LoRa radio modem; Localization; MSW; Machine learning; Machine learning techniques; Mental arithmetic; Millennial; Mobile ad hoc networks; Mobile robot; NAO robot; Natural language processing; Neural network; Neural synaptic core; Neuromorphic architecture; PAN; RDS; RNN Classifier; ROS; Robot interaction; Robot navigation; Robots; SABRE; Segmentation; Skeleton movement; Smart car; Smart trash bin; Sustainability; Sustainability readiness; Trust; V2I; V2V; VANET; Visual attention; Visual-based SLAM; WSN
1. Introduction to cognitive computing and its various applications Sushila Palwe and Anita Gunjal 2. Recent trends towards cognitive science: from robots to humanized robots Katiyar Sarthak and Katiyar Kalpana 3. Cognitive compyuting in human activity recognition by healthcare robots S. Ravi Shankar, Gopi Battineni, and Mamta Mittal 4. Deep learning-based cognitive state prediction analysis using brain wave signals D. Devi, S. Sophia, and S.R. Boselin Pabhu 5. EEG-based cognitive performance evaluations for mental arithmetic tasks Debatri Chatterjee, Rahul Gavas, Roopkatha Samanta, and Sanjoy Kumar Saha 6. Trust or no trust in chat-bots: a millennial dilemma Shivani Agarwal 7. Cognitive computing in autonomous vehicles Atharva Sandeep Vidwans 8. Optimized navigation using deep learning techniques for automatic guided vehicles Anubha Parashar, Apoorva Parashar, and Lalit Mohan Goyal 9. Vehicular middleware and heuristic approaches for ITS systems of smart cities Rajender Kumar, Ravinder Khanna, and Surender Kumar 10. Error traceability and error prediction using machine learning techniques to improve the quality of vehicle modeling in computer-aided engineering A. Anny Leema, Krishna Sai Narayana, and Subramani Sellaman 11. All about human-robot interaction Kiran Jot Singh, Divneet Singh Kapoor, and Balwinder Singh Sohi 12. Teleportation of human body kinematicss for a tangible humanoid robot control Tutan Nama and Suman Deb 13. Recognition of trivial humanoid group events using clustering and higher order local auto-correlation techniques K. Seemanthini and S.S. Manjunath 14. Understanding the hand gesture command to visual attention model for mobile robot navigation: service robots in the domestic environment E.D.G. Sanjeewa, K.K.L. Herath, B.G.D.A. Madhusanka, H.D.N.S. Priyankara, and H.M.K.K.M.B. Herath 15. Mobile robots for air quality monitoring of landfill sites using the Internet of Things Rajesh Singh, Anita Gehlot, Shaik Vaseem Akram, Prabin Kumar Das, and Sushabhan Choudhury 16. Artificial intelligence and Internet of Things readiness: the inclination for hotels to support a sustainable envoronment Mudita Sinha, Leena N. Fukey, Ashutosh Sinha 17. Design and fabrication of a new multi-function smart trash bin based on the Internet of Things Bo Sun, Quanjin Ma, Hao Yao, Zidong Yang, Da Peng, and M.R.M.Rejab
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D point cloud; Activity recognition; Affect-based trust; Air quality; Arduino uno; Artifact; Artificial Intelligence; Artificial insight; Artificial intelligence; Back propagation; Brain activation; CAE; CAN; CNN; CNN classifier; Chatbots; Cognitive capabilities; Cognitive computing; Cognitive performance; Cognitive science; Cognitive-based trust; Completed local binary pattern; Computational technology; Computer vision; Contextual awareness; Convolutional neural networks; DWT; Data; Deep learning; Deep learning algorithm; Digital computer; ECNN; EEG; End-to-end; Error prediction; Error traceability; Fuzzy c-mean clustering; GAN; Garbage classification; Gesture classification; Gesture teleportation; HCI; HRI; Hand gesture recognition; Healthcare robots; High order local auto-correlation; Hotel management; Human; Human-chatbot interaction; Human-machine interaction; Human-robot collaboration; ITS; Internet of Things; Internet of things; IoT; Kinect camera; Kinetic movements; LGA descriptor; LIDAR; Landfilling sites; Leap motion controller; LoRa radio modem; Localization; MSW; Machine learning; Machine learning techniques; Mental arithmetic; Millennial; Mobile ad hoc networks; Mobile robot; NAO robot; Natural language processing; Neural network; Neural synaptic core; Neuromorphic architecture; PAN; RDS; RNN Classifier; ROS; Robot interaction; Robot navigation; Robots; SABRE; Segmentation; Skeleton movement; Smart car; Smart trash bin; Sustainability; Sustainability readiness; Trust; V2I; V2V; VANET; Visual attention; Visual-based SLAM; WSN
