Version 1.5, part of Release 2018a, includes the following enhancements:

  • ​IEEE 802.11ax Examples: Generate IEEE 802.11ax high efficiency (HE) waveforms and simulate downlink end-to-end links​​
  • IEEE TGax Indoor Channel Model: Simulate indoor 802.11ax propagation conditions for both single and multiuser scenario​
  • ​IEEE 802.11ad Single Carrier PHY Example: Simulate an end-to-end, DMG format WLAN link over an AWGN with synchronization and equalization​​​
  • IEEE 802.11ad​​​ Extended MCS Support: Generate IEEE 802.11ad waveforms with the extended modulation and coding schemes (MCS) for the single carrier PHY​​​

See the Release Notes for details.

Version 1.4, part of Release 2017b, includes the following enhancements:

  • IEEE 802.11ad Receiver: Demodulate and decode directional multi-gigabit waveforms
  • IEEE 802.11ah Example: Simulate an end-to-end sub 1 GHz link with the TGah channel model
  • Simulink Example: Model a WLAN link in Simulink
  • Bit-Level Processing Functions: Explore standard-compliant bit-level algorithms

See the Release Notes for details.

Version 1.3, part of Release 2017a, includes the following enhancements:

  • IEEE 802.11ad Support: Generate IEEE 802.11ad compliant waveforms
  • IEEE TGah Indoor Channel Model: Simulate 802.11ah propagation conditions
  • OFDM Timing Synchronization: Detect and estimate symbol timing offsets in a received OFDM signal
  • MATLAB Compiler Support: Compile WLAN models into standalone applications

See the Release Notes for details.

1.2 版是 Release 2016b 的一部分,它提供了以下增强功能:

  • 支持 IEEE 802.11ah 标准:生成符合 IEEE 802.11ah 标准的波形
  • 多用户 MIMO 接收机:对 802.11ac 多用户波形进行解码并分析
  • LDPC 信道编码:使用低密度校验 (LDPC) 信道编码技术分析 802.11ac/n 链路的性能
  • 生成信标帧的示例:创建用于接收机测试和无线传输的信标帧

有关详细信息,请参阅 发行说明

1.1 版是 Release 2016a 的一部分,它提供了以下增强功能:

  • 对 802.11p 标准的支持:通过对 802.11p 系统进行仿真,来分析智能交通系统 (ITS) 的应用
  • 对 802.11j 标准的支持:对 802.11j 系统进行仿真,以分析日本的 WiFi 市场应用情况

有关详细信息,请参阅 发行说明