| Algorithm Design | Description |
| 802.11 a/b/g PHY | The WLAN 802.11a library contains a configurable WLANtransmitter, various channel models and different receiverconfigurations for complete system simulation, and generic models for the transmitter and receiver RF front ends. Using this library it is possible to evaluate the performance of different receiver algorithms, and the influence of the analogcomponents imperfections such as oscillator phase noise, amplifier non linearities, quantization effects, and so on, on the overall system performance. |
CDMA
(cdmaOne IS-95) | The System Studio cdma2000 Reference Design Kit can be used for modeling the algorithms of the cdma2000 physical layer standard defined in the cdma2000 document TIA/EIA/IS-2000.2-A "Physical Layer Standard for cdma2000, Standards for Spread Spectrum Systems". The cdma2000 library consists of channel models and transmitter and receiver configurations for complete system simulation. |
GSM
(incl. GPRS and TCH) | The GSM Reference Design Kit contains two model libraries (gsmeq and gsmphy model libraries) that can be used to model the physical layer of the radio path as defined in the 05 series of the GSM (Global Service for Mobile Communications) recommendations. |
ITU G.72x Speech
(incl. 3G AMR) | The ADPCM library contains models that can be used to model a speech transmission system according to the ITU G.722 and G.726 recommendations. The G.722 speech encoder works on 16-bit uniformly quantized speech signals sampled at 16 kHz. The transmittable frequencies range from 50 Hz to 7000 Hz. The coding system uses sub-band adaptive differential pulse code modulation (SB-ADPCM) within an output bit rate of 64 kbit/s. The incoming speech signal is split into two sub-bands, which are then encoded using ADPCM. The system 9-2 ETSI G.72X Speech Coding: ADPCM Library has three basic modes of operation corresponding to the output bit rates: 64, 56 and 48 kbit/s. The latter two modes allow the transmission of auxiliary data by making use of bits from the lower sub-band. |
| DOCSIS | The DOCSIS (Data Over Cable Service Interface Specifications) Reference Design Kit (DOCSIS RDK) contains models and examples for simulating system operation of the DOCSIS standard on the physical layer. This Reference Design Kit can be used for modeling the algorithms of the DOCSIS physical layer standard defined in the following documents |
| Bluetooth | The Bluetooth Reference Design Kit (RDK) can be used to model Bluetooth baseband standard algorithms. The Bluetooth baseband standard is defined in the Bluetooth document 1.C.47/1.1 Specification of the Bluetooth System, 22.Feb.2001. The Bluetooth RDK consists of the BLUETOOTH_PL model library, the bluetooth_lc model library, and their corresponding sub-libraries. |
| ADSL | The ADSL Model Library makes it easy to model the physical layer of ADSL transmission lines. You should be able to put higher layers in place without having to produce the basic elements. With the models and reference configurations, you can model the up- and downlinks, logical channels, synchronization behavior and channel transcoding elements. |
| MPEG-2 | The MPEG Reference Design Kit allows you to quickly model the algorithms of the MPEG-2 video standard defined in the ISO/IEC 13818-2:1996(E) document.The library consists of a complete set of video decoder and encoder configurations for full system simulation. Extensive examples of MPEG-1/2 compliant video decoders and encoders are provided with the reference configurations. |
| MPEG-4 | Same as MPEG-2but for MPEG-4. |
| DECT | The DECT reference design kit contains models that implement the algorithms for the European cordless telephony standard. |
| DVB | The library consists of a complete set of channel models, transmitter, and receiver configurations for full DVB satellite transmission. Parameterizable satellite channels are included to allow you to evaluate the receiver performance under a comprehensive set of transmission conditions. |
| DAB | The DAB model library supports the creation of models for digital audio broadcasting in accordance with the ETSI Digital Audio Broadcast standard for mobile, portable and fixed receivers. |
| IS-136 | The IS-136 Reference Design Kit models the physical layer of the IS-136 digital cellular standard. The IS-136 Reference Design Kit is comprised of a set of reference models that enables IS-136 digital cellular system designers to design, analyze, build, and verify complete digital cellular communication systems that conform to the IS-136 specifications. This set of reference designs is the most comprehensive set available in any DSP system design tool today. |
| PDC | The PDC reference design kit libraries consist of a complete set of channel models, transmitter, and receiver configurations for full system simulation. Parameterizable fading channels are included to completely model the channel distortions and test the behavior of the receivers in presence of fading. Extensive examples of logical channels are provided, including both forward and reverse links. Examples of carrier and clock recovery, as well as channel decodingare provided with the reference configurations. |
| Error Correction Coding | A library of common error correction algorithms. |
