The Experts below are selected from a list of 24 Experts worldwide ranked by ideXlab platform
Qingbo Ran - One of the best experts on this subject based on the ideXlab platform.
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research on a fusion scheme of cellular network and wireless sensor for cyber physical social systems
IEEE Access, 2018Co-Authors: Aimin Yang, Xiaolei Yang, Jincai Chang, Bin Bai, Fanbei Kong, Qingbo RanAbstract:The Internet of Things (IOT) is considered to be the third wave of the world information industry after the computer and the Internet. In order to realize the ubiquitous access to the IOT, the cellular network can only be fused with the wireless sensor network physical social systems. Based on this, the purpose of this paper is to extract the general functions that necessary but unrelated with the specific application in the cellular network and wireless sensor fusion technology. These general functions, including terminal registration and serial number assignment, terminal authentication Management, Connection Management, terminal fault Management, terminal state Management and monitoring, congestion control, terminal dormancy and activation, and so on. Aiming at these general functions, the author gives an exploratory solution to provide a referable shared function module for the fusion of cellular network and wireless sensor networks physical social systems. It is of great significance to improve the development progress of the IOT, reduce the difficulty and cost of development.
Aimin Yang - One of the best experts on this subject based on the ideXlab platform.
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research on a fusion scheme of cellular network and wireless sensor for cyber physical social systems
IEEE Access, 2018Co-Authors: Aimin Yang, Xiaolei Yang, Jincai Chang, Bin Bai, Fanbei Kong, Qingbo RanAbstract:The Internet of Things (IOT) is considered to be the third wave of the world information industry after the computer and the Internet. In order to realize the ubiquitous access to the IOT, the cellular network can only be fused with the wireless sensor network physical social systems. Based on this, the purpose of this paper is to extract the general functions that necessary but unrelated with the specific application in the cellular network and wireless sensor fusion technology. These general functions, including terminal registration and serial number assignment, terminal authentication Management, Connection Management, terminal fault Management, terminal state Management and monitoring, congestion control, terminal dormancy and activation, and so on. Aiming at these general functions, the author gives an exploratory solution to provide a referable shared function module for the fusion of cellular network and wireless sensor networks physical social systems. It is of great significance to improve the development progress of the IOT, reduce the difficulty and cost of development.
Stephen Rago - One of the best experts on this subject based on the ideXlab platform.
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unix system v network programming
1993Co-Authors: Stephen RagoAbstract:(Each chapter ends with a Summary, Exercises, Bibliographic Notes.) Preface. I. BACKGROUND MATERIAL. 1. Introduction to Networks. Background. Network Characteristics. Networking Models. 2. UNIX Programming. Overview. Concepts. Conventions. Writing Programs. Summary. Exercise. II. USER-LEVEL NETWORK PROGRAMMING. 3. STREAMS. STREAMS Background. STREAMS Architecture. System Calls. Nonblocking I/O and Polling. Service Interfaces. IPC with STREAMS Pipes. Advanced Topics. 4. The Transport Layer Interface. Introduction. Transport Endpoint Management. Connectionless Service. Connection-oriented Service. TLI and Read/Write. 5. Selecting Networks and Addresses. Introduction. Network Selection. Name-to-Address Translation. Name-to-Address Library. Design. 6. The Network Listener Facility. The Service Access Facility. Port Monitors. The Listener Process. One-shot Servers. Standing Servers. The NLPS Server. 7. Sockets. Introduction. Socket Management. Connection Establishment. Data Transfer. UNIX Domain Sockets. Advanced Topics. Comparison with the TLI. Name-to-Address Translation. 8. Remote Procedure Calls. Introduction. XDR. High-level RPC Programming. Low-level RPC Programming. rpcgen. Advanced RPC Features. III. KERNEL-LEVEL NETWORK PROGRAMMING. 9. The STREAMS Subsystem. The Kernel Environment. The STREAMS Environment. STREAMS Messages. STREAMS Queues. Communicating with Messages. Message Types. 10. STREAMS Drivers. Introduction. Driver Entry Points. The Data Link Provider Interface. Ethernet Driver Example. 11. STREAMS Modules. Introduction. Module Entry Points. The Terminal Interface. Network TTY Emulator Example. 12. STREAMS Multiplexors. Introduction. How Multiplexors Work. The Transport Provider Interface. Transport Provider Example. IV. DESIGN PROJECT: IMPLEMENTING SLIP. 13. Design Project: Implementing SLIP. Introduction to SLIP. Software Architecture. User-level Components. Kernel-level Components. Bibliography. Index. 0201563185T04062001
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unix system v network programming
1993Co-Authors: Stephen RagoAbstract:(Each chapter ends with a Summary, Exercises, Bibliographic Notes.) Preface. I. BACKGROUND MATERIAL. 1. Introduction to Networks. Background. Network Characteristics. Networking Models. 2. UNIX Programming. Overview. Concepts. Conventions. Writing Programs. Summary. Exercise. II. USER-LEVEL NETWORK PROGRAMMING. 3. STREAMS. STREAMS Background. STREAMS Architecture. System Calls. Nonblocking I/O and Polling. Service Interfaces. IPC with STREAMS Pipes. Advanced Topics. 4. The Transport Layer Interface. Introduction. Transport Endpoint Management. Connectionless Service. Connection-oriented Service. TLI and Read/Write. 5. Selecting Networks and Addresses. Introduction. Network Selection. Name-to-Address Translation. Name-to-Address Library. Design. 6. The Network Listener Facility. The Service Access Facility. Port Monitors. The Listener Process. One-shot Servers. Standing Servers. The NLPS Server. 7. Sockets. Introduction. Socket Management. Connection Establishment. Data Transfer. UNIX Domain Sockets. Advanced Topics. Comparison with the TLI. Name-to-Address Translation. 8. Remote Procedure Calls. Introduction. XDR. High-level RPC Programming. Low-level RPC Programming. rpcgen. Advanced RPC Features. III. KERNEL-LEVEL NETWORK PROGRAMMING. 9. The STREAMS Subsystem. The Kernel Environment. The STREAMS Environment. STREAMS Messages. STREAMS Queues. Communicating with Messages. Message Types. 10. STREAMS Drivers. Introduction. Driver Entry Points. The Data Link Provider Interface. Ethernet Driver Example. 11. STREAMS Modules. Introduction. Module Entry Points. The Terminal Interface. Network TTY Emulator Example. 12. STREAMS Multiplexors. Introduction. How Multiplexors Work. The Transport Provider Interface. Transport Provider Example. IV. DESIGN PROJECT: IMPLEMENTING SLIP. 13. Design Project: Implementing SLIP. Introduction to SLIP. Software Architecture. User-level Components. Kernel-level Components. Bibliography. Index. 0201563185T04062001
Fanbei Kong - One of the best experts on this subject based on the ideXlab platform.
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research on a fusion scheme of cellular network and wireless sensor for cyber physical social systems
IEEE Access, 2018Co-Authors: Aimin Yang, Xiaolei Yang, Jincai Chang, Bin Bai, Fanbei Kong, Qingbo RanAbstract:The Internet of Things (IOT) is considered to be the third wave of the world information industry after the computer and the Internet. In order to realize the ubiquitous access to the IOT, the cellular network can only be fused with the wireless sensor network physical social systems. Based on this, the purpose of this paper is to extract the general functions that necessary but unrelated with the specific application in the cellular network and wireless sensor fusion technology. These general functions, including terminal registration and serial number assignment, terminal authentication Management, Connection Management, terminal fault Management, terminal state Management and monitoring, congestion control, terminal dormancy and activation, and so on. Aiming at these general functions, the author gives an exploratory solution to provide a referable shared function module for the fusion of cellular network and wireless sensor networks physical social systems. It is of great significance to improve the development progress of the IOT, reduce the difficulty and cost of development.
Bin Bai - One of the best experts on this subject based on the ideXlab platform.
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research on a fusion scheme of cellular network and wireless sensor for cyber physical social systems
IEEE Access, 2018Co-Authors: Aimin Yang, Xiaolei Yang, Jincai Chang, Bin Bai, Fanbei Kong, Qingbo RanAbstract:The Internet of Things (IOT) is considered to be the third wave of the world information industry after the computer and the Internet. In order to realize the ubiquitous access to the IOT, the cellular network can only be fused with the wireless sensor network physical social systems. Based on this, the purpose of this paper is to extract the general functions that necessary but unrelated with the specific application in the cellular network and wireless sensor fusion technology. These general functions, including terminal registration and serial number assignment, terminal authentication Management, Connection Management, terminal fault Management, terminal state Management and monitoring, congestion control, terminal dormancy and activation, and so on. Aiming at these general functions, the author gives an exploratory solution to provide a referable shared function module for the fusion of cellular network and wireless sensor networks physical social systems. It is of great significance to improve the development progress of the IOT, reduce the difficulty and cost of development.
