Wireless Communication Lab

Wireless Communication Lab is a software programmable hardware transceiver which allows limitless wireless communication laboratory experiments. The entry barrier is lowered to include the undergraduate students by providing a graphical programming environment.

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Description

Wireless Communication Lab is a software programmable hardware transceiver which allows limitless communication laboratory experiments to be performed on a single device. The entry barrier is lowered to include the undergraduate students by providing a graphical programming environment.

 

Technical Specifications of Wireless Development System:

Sl.No.Description Qty.
1.0Wireless Development System Lab Equipment consisting of :

  • 2 Transceivers+
  • 2 Mobile workstations/Laptops+
  • 4 Antennas+
  • 4 Cables+
  •  Software+
  • User Manual
1 Set
List of experiments can be performed from this lab system:
  1. Design and Implement a complete real-time RF transmitter using Amplitude Modulation-Double Sideband suppressed carrier (AM-DSBSC) modulation scheme
  2. Design and Implement a complete real-time RF receiver using Amplitude Modulation-Double Sideband suppressed carrier (AM-DSBSC) modulation scheme
  3. Design and Implement a complete real-time RF transmitter link using Amplitude Modulation- Double Sideband with carrier (AM-DSBWC) modulation scheme
  4. Design and Implement a complete real-time RF receiver using Amplitude Modulation-Double Sideband with carrier (AM-DSBWC) modulation scheme
  5. Design and Implement a complete real-time RF transmitter using Narrowband Frequency Modulation (NBFM) modulation scheme
  6. Design and Implement a complete real-time RF receiver using Narrowband Frequency Modulation (NBFM) modulation scheme
  7. Design and Implement a complete real-time RF transmitter using Wideband Frequency Modulation (WBFM) modulation scheme
  8. Design and Implement a complete real-time RF receiver using Wideband Frequency Modulation (WBFM) modulation scheme
  9. Design and Implement a complete real-time RF transmitter using Amplitude Shift Keying (ASK) modulation scheme
  10. Design and Implement a complete real-time RF receiver using Amplitude Shift Keying (ASK) modulation scheme
  11. Design and Implement a complete real-time RF transmitter using Frequency Shift Keying (FSK) modulation scheme
  12. Design and Implement a complete real-time RF receiver using Frequency Shift Keying (FSK) modulation scheme
  13. Design and Implement a complete real-time RF transmitter using Binary Phase Shift Keying (BPSK) modulation scheme
  14. Design and Implement a complete real-time RF receiver using Binary Phase Shift Keying(BPSK) modulation scheme
  15. Design and Implement a complete real-time RF transmitter using Differential Binary Phase Shift Keying (DBPSK) modulation scheme
  16. Design and Implement a complete real-time RF receiver using Differential Binary Phase Shift Keying (DBPSK) modulation scheme
  17. Design and Implement a complete real-time RF transmitter using Quadrature Phase Shift Keying (QPSK) modulation scheme
  18. Design and Implement a complete real-time RF receiver using Quadrature Phase Shift Keying (QPSK) modulation scheme
  19. Design and Implement a complete real-time RF transmitter using Differential Quadrature Phase Shift Keying (DQPSK) modulation scheme
  20. Design and Implement a complete real-time RF receiver using Differential Quadrature Phase Shift Keying (DQPSK) modulation scheme
  21. Design and Implement a complete real-time RF transmitter using 8-PSK modulation scheme
  22. Design and Implement a complete real-time RF receiver using 8-PSK modulation scheme
  23. Design and Implement a complete real-time RF transmitter using D8-PSK modulation scheme
  24. Design and Implement a complete real-time RF receiver using D8-PSK modulation scheme
  25. Design and Implement a complete real-time RF transmitter using Gaussian Minimum Shift Keying (GMSK) modulation scheme
  26. Design and Implement a complete real-time RF receiver using Gaussian Minimum Shift Keying (GMSK) modulation scheme
  27. Design and Implement a complete real-time RF transmitter using Gaussian Frequency Shift Keying (GFSK) modulation scheme
  28. Design and Implement a complete real-time RF receiver using Gaussian Frequency Shift Keying (GFSK) modulation scheme
  29. Design and Implement a complete real-time RF transmitter using Quadrature Amplitude Modulation QAM-4 modulation scheme
  30. Design and Implement a complete real-time RF receiver using Quadrature Amplitude Modulation QAM-4 modulation scheme
  31. Design and Implement a complete real-time RF transmitter using Quadrature Amplitude Modulation QAM-16 modulation scheme
  32. Design and Implement a complete real-time RF receiver using Quadrature Amplitude Modulation QAM-16 modulation scheme
  33. Design and Implement a complete real-time RF transmitter using Quadrature Amplitude Modulation QAM-64 modulation scheme
  34. Design and Implement a complete real-time RF receiver using Quadrature Amplitude Modulation QAM-64 modulation scheme
  35. Design and Implement a complete Code Division Multiple Access (CDMA) system with a RF transceiver link
  36. Design and implement an Audio transmission and reception system using g721 codec and
  37. Frequency Modulation in real-time over a RF transceiver link
  38. Design and implement a Full Duplex audio transmission and reception using GSM-FR and DBPSK in real-time over a RF transceiver link
  39. Using u-law for a complete full duplex audio link design and implementation using DQPSK modulation in real-time over a RF transceiver link
  40. Video transmission and reception using GMSK with complete encoding and decoding in real-time over a RF transceiver link
  41. Full duplex audio and video transmission and reception using DQPSK in real-time over a RF transceiver link
  42. Design and implement a complete RF system using Digital Video Broadcasting(DVB) for audio and video transmission and reception
  43. Design and implement a GSM receiver to decode real-time GSM control channels
  44. Design and implement a GSM decoder with analysis in Wireshark for real-time traffic monitoring
  45. Design and implement a system to find the location of neighbouring GSM cell towers and map on Google Maps in real-time
  46. Design and Implement a complete RF transceiver link using OFDM
  47. Design and Implement a complete RF transceiver system to understand the concept of cyclic prefix in Orthogonal Frequency Division Multiplexing(OFDM)
  48. Design and Implement a complete RF transceiver system to understand the concept of receiver synchronisation in Orthogonal Frequency Division Multiplexing(OFDM) with different header and payload modulation
  49. Design and implement a system to demodulate 802.11 WiFi signals in real-time
  50. Design and implement a system to decode 802.11 signals in real-time and analyse the packets in Wireshark
  51. Design and implement a complete system to receive 802.15.4 signal with PHY, MAC and Network layer decoding
  52. Design and implement a complete transceiver system using 802.15.4
  53. Design and implement a complete interoperable transceiver system with WSN Telosb motes using 802.15.4
  54. Design and implement a system to practically demonstrate and understand the concept of frequency offset correction modern communication system over a RF link
  55. Design and implement a system to practically demonstrate and understand the concept of matched filtering and timing synchronisation in modern communication system over a RF link
  56. Design and implement a system to practically demonstrate and understand the concept of phase offset correction modern communication system over a RF link
  57. Design and implement a complete system over RF link to transmit and receiver file using different modulation schemes
  58. Design and implement a complete system over RF link to transmit and receiver image using different modulation schemes
  59. Design and implement a complete system over RF link to transmit and receiver music using
  60. FM and understand all the building blocks of the system
  61. Design and implement a complete full duplex system over a RF link to transmit and receiver text in a chat application
  62. Design and implement a complete system to transmit and receive a Pseudo Random Sequence over a RF link
  63. Design and implement a complete full duplex system to transmit and receive different Pseudo Random Sequences over a RF link simultaneously
  64. Design and implement a complete system to practically understand the channelizers over a RF link
  65. Design and implement a complete system to transmit and receive data via TCP over a RF link using different modulation schemes
  66. Design and implement a complete system to transmit and receive data via UDP over a RF link using different modulation schemes
  67. Design and implement a complete system to practically understand and demonstrate the concept of equalisers in a communication system
  68. Design and implement a system to improve the performance using Constant Modulus Algorithm (CMA) equalisers in a real-time transmission and reception scenario
  69. Design and implement a complete system to understand and demonstrate the concept of Forward Error Correction(FEC) in a communication system
  70. Design and implement a system to improve the performance using LDPC forward error correction in a real-time transmission and reception scenarios
  71. Design and implement energy detection based spectrum sensing in a real-time RF system for a cognitive radio network
  72. Design and implement a dynamic spectrum allocation mechanism based on real-time feedback for a cognitive radio network
  73. Design and implement the functionality of primary user in a cognitive radio network testbed with complete RF transceiver link
  74. Design and implement the functionality of secondary user in a cognitive radio network testbed with complete RF transceiver link
  75. Design and implement a complete cognitive radio network using real-time RF transceiver system
  76. Design and Implement a complete real-time RF transceiver link in the presence of a Rayleigh channel
  77. Design and Implement a complete real-time RF transceiver link in the presence of a Rician channel
  78. Design and Implement a complete real-time RF transceiver link in the presence of a AWGN channel
  79. Design and implement a system for real-time transmission of sensor information over a RF transceiver link using various modulations.
  80. Design and implement a real-time system for adaptive modulation transmission and reception over a RF transceiver link.
  81. Design and implement a real-time system using Convolutional Block Coding and Decoding over a RF transceiver link
  82. Design and implement a complete real-time RF transceiver link for bit error rate measurement in a system using Convolution Block Coding and Decoding
  83. Design and implement a real-time system using Reed-Solomon Coding and Decoding over a RF transceiver link
  84. Design and implement a complete real-time RF transceiver link for bit error rate measurement in a system using Reed-Solomon Coding and Decoding
  85. Design and implement a real-time system for Bit Error Measurement(BER) Measurement over a RF transceiver link
  86. Design and implement a system for real-time Bit Error Rate(BER) measurement using a BPSK modulated RF transceiver link
  87. Design and implement a system for real-time Bit Error Rate(BER) measurement using a DBPSK modulated RF transceiver link
  88. Design and implement a system for real-time Bit Error Rate(BER) measurement using a QPSK modulated RF transceiver link
  89. Design and implement a system for real-time Bit Error Rate(BER) measurement using a DQPSK modulated RF transceiver link
  90. Design and implement a system for real-time Bit Error Rate(BER) measurement using a 8PSK modulated RF transceiver link
  91. Design and implement a system for real-time Bit Error Rate(BER) measurement using a D8PSK modulated RF transceiver link
  92. Design and implement a system for real-time Bit Error Rate(BER) measurement using a ASK modulated RF transceiver link
  93. Design and implement a system for real-time Bit Error Rate(BER) measurement using a FSK modulated RF transceiver link
  94. Design and implement a system for real-time Bit Error Rate(BER) measurement using a GMSK modulated RF transceiver link
  95. Design and implement a system for real-time Bit Error Rate(BER) measurement using a GFSK modulated RF transceiver link
  96. Design and implement a system for real-time Bit Error Rate(BER) measurement using a QAM16 modulated RF transceiver link
  97. Design and implement a system for real-time Bit Error Rate(BER) measurement using a QAM64 modulated RF transceiver link
  98. Design and implement a real-time Broadcast Transmission Station using Amplitude Modulation(AM)
  99. Design and implement a real-time Broadcast Transmission Station using Frequency Modulation(FM)
  100. Design and implement a real-time system over a RF transceiver link to understand Carrier Acquisition using Phased Locked Loop(PLL)
  101. Design and implement a real-time system over a RF transceiver link to understand carrier frequency recovery and phase error tracking using Costas Loop
  102. Design and implement a system using Code Division Multiple Access(CDMA) over a real-time RF transceiver link to understand Processing Gain
  103. Design and implement a real-time system to explore the concept of complex signals over RF transceiver link
  104. Design and implementation of a system to explore the differences and improvement in Complex signals over real signals
  105. Design and implement a real-time system for AM Demodulation over a RF transceiver link using Envelope Detection
  106. Design and implement a system to improve the performance using Least mean squares Equalisation for ISI in a real-time transmission and reception scenario
  107. Design and implement a real-time system to explore the concept of Fading over a RF transceiver link
  108. Design and implement a real-time system to explore the concept of Multi-path channel over a RF transceiver link
  109. Design and implement a real-time system using Frequency Division Multiplex (FDM) over a RF transceiver link
  110. Design and implement a real-time system using Direct Sequence Spread Spectrum (DSSS) over a RF transceiver link
  111. Design and implement a real-time system using Frequency Hopping Spread Spectrum (FHSS) over a RF transceiver link
  112. Design and implement a real-time system for Bit Error Rate(BER) measurement using Frequency Hopping Spread Spectrum (FHSS) over a RF transceiver link
  113. Design and implement a real-time system for Bit Error Rate(BER) measurement using Direct Sequence Spread Spectrum (DSSS) over a RF transceiver link
  114. Design and implement a real-time system for FM Demodulation over a RF transceiver link using Phased Locked Loop(PLL)
  115. Design and implement a real-time system to explore the concept of FM Deviation over a RF transceiver link using Phased Locked Loop(PLL)
  116. Design and Implement a complete real-time RF transceiver link using OQPSK modulation scheme
  117. Design and Implement a complete real-time RF transceiver link using pi/4-QPSK modulation scheme
  118. Design and Implement a complete real-time RF transceiver link using pi/4-DQPSK modulation scheme
  119. Design and implement a complete real-time RF transceiver link using Line Coding and Decoding
  120. Design and implement a complete system to transmit gaussian noise over a real time RF transceiver link
  121. Design and implement a complete system to transmit various noise types over a real time RF transceiver link
  122. Design and Implement a complete RF transceiver system to understand the concept of IFFT and application of time domain in Orthogonal Frequency Division Multiplexing(OFDM)
  123. Design and Implement a complete RF transceiver system to understand the concept of Peak to average power ratio(PAPR) in Orthogonal Frequency Division Multiplexing(OFDM)
  124. Design and Implement a complete RF transceiver system to understand the concept of Orthogonal Frequency Division Multiplexing(OFDM) Synchronisation
  125. Design and Implement a complete RF transceiver system to understand the concept of Orthogonal Frequency Division Multiplexing(OFDM) Channel Equalisation
  126. Design and Implement a complete RF transceiver system for Bit Error Rate(BER) measurement in Orthogonal Frequency Division Multiplexing(OFDM)
  127. Design and implement a real-time system to explore the concept of Pulse Shaping over RF transceiver link
  128. Design and implement a real-time system to explore the concept of Spread Spectrum signals over RF transceiver link
  129. Design and implement a real-time system using Time Division Multiplex (TDM) over a RF transceiver link
  130. Design and implement a real-time system using Trellis Coded Modulation (TCM) over a RF transceiver link
  131. Design and implement a real-time system to explore the concept of Trellis Gain in Trellis Coded Modulation (TCM) over RF transceiver link
  132. Design and implement a real-time system for measurement of Signal to Noise Ratio (SNR) over a RF transceiver link
  133. Design and implement a complete Transmitter system using Pulse Amplitude Modulation(PAM) and transmit over a RF transceiver link
  134. Design and implement a complete Receiver system for Pulse Amplitude Modulation(PAM) and receive over a RF transceiver link
  135. Design and implement a complete Transmitter system using Pulse Width Modulation(PWM) and transmit over a RF transceiver link
  136. Design and implement a complete Receiver system for Pulse Width Modulation(PWM) and receive over a RF transceiver link
  137. Design and implement a complete Transmitter system using Pulse Coded Modulation(PCM) and transmit over a RF transceiver link
  138. Design and implement a complete Receiver system for Pulse Coded Modulation(PCM) and receive over a RF transceiver link
  139. Design and implement a realtime system to receive GSM uplink channel
  140. Design and implement a realtime system to receive 3G WCDMA channels and explore the frequency and time domain characteristics of the signal
  141. Design and implement a realtime system to receive 4G LTE channels and explore the frequency and time domain characteristics of the signal
  142. Design and implement a realtime system to receive WiFi channels and explore the frequency and time domain characteristics of the signal.

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