![]() ![]() We deal with both 16-bit Windows platforms (Microsoft Windows 3.1 and Windowsfor Workgroups) and 32-bit platforms (Windows NT 3.1 and 3.5, and Windows 95). If you are writing a program from scratch, porting an existing one from Berkeley sockets (or any other network API), writing a network DLL, or just updating an application that someone else wrote, then this book is for you. You can avoid this type of application failure, and we show you how.This book is for anyone who wants to know how to write a successful WinSock application. In other words, it may not have been the fault of the WinSock implementor, nor of the WinSock specification. They assumed that WinSock could do something that the specification did not explicitly warrant. More often than not, when an application runs on one WinSock and fails on another, it is because the application developers made some incorrect assumptions. One of the most frustrating things to hear is, "It's impossible to write anything more than a basic 'hello world' that will execute over all Winsock implementations." This simply is not true. It deals with optional features as well as many features in version 2.0 of the Windows Sockets specification.The key focus of the text is to provide a "how to" guide for writing supportable and extensible network applications that will run efficiently over all Windows Sockets implementations. The book describes and illustrates every aspect of the Windows Sockets specification, from top to bottom. The contents provide a roadmap for the specification, an orientation resource. Mukhopadhyay et.al 2009 Remote Vision 3 Wireless 16 M.įrom the Book:This book describes the Windows Sockets application programming interface (API), commonly known as "WinSock." This is intended to be a companion to the v1.1 Windows Sockets specification, not a replacement for it. Nair et.al 2012 LABView NA Wireless 15 S. Elfasakhany 2011 Servo Motor 4 Wireless 14 S. SANCHETI et.al 2012 Gesture Actuated 6 Wireless 13 A. Varghese et.al 2015 Wireless Control of Anthropomorphic 7 Wireless 12 A. Megalingam et.al 2012 DTMF(Dual tone multi frequency) NA Wireless 11 B. Gontean et.al 2013 Remotely Commanding the Lynxmotion AL5 Type 3 Wireless 10 R. Olwan et.al 2014 The Design and Analysis of Robotic Arm 6 Wired 9 R. ![]() ![]() Premkumar et.al 2015 Smart phone based using raspberry pi, android and Wi-Fi 3 Wireless 8 O. Carbone et.al 2010 Service Tasks 4 Wireless 7 K. Mukhopadhyay et.al 2009 WiFi-based and Remote Vision 3 Wireless 6 G. ![]() Lewisb et.al 2003 fuzzy logic controller NA Wired 5 S. Jeong et.al 2001 Pneumatic Actuators 7 Wired 4 J. Shen et.al 2006 Trajectory Planning NA Wired 3 Y. The complete design of the hand glove is shown in Figure 8. The use of the wireless module enabled to operate the robotic arm from a short distance of a few meters. ![]()
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