Signal Operations
Scrambling, puncturing, interlacing, conversion between bit and decimal, and delay management
Perform various bit operations and delay management on signals and blocks of data.
Funzioni
bit2int | Convert bits to integers (Da R2021b) |
int2bit | Convert integers to bits (Da R2021b) |
hex2poly | Convert hexadecimal character vector to binary coefficients |
oct2poly | Convert octal number to binary coefficients |
alignsignals | Align two signals by delaying earliest signal (Da R2019a) |
finddelay | Estimate delay(s) between signals |
Oggetti
comm.Descrambler | Descramble input signal |
comm.Scrambler | Scramble input signal |
Blocchi
Deinterlacer | Distribute elements of input vector alternately between two output vectors |
Derepeat | Reduce sampling rate by averaging consecutive samples |
Descrambler | Descramble input signal |
Find Delay | Find delay between two signals |
Interlacer | Alternately select elements from two input vectors to generate output vector |
Puncture | Output elements that correspond to 1s in binary puncture vector |
Scrambler | Scramble input signal |
Bit to Integer Converter | Map vector of bits to corresponding vector of integers |
Integer to Bit Converter | Map vector of integers to vector of bits |
Argomenti
- Find Delay for Encoded and Filtered Signal
Determine the delay for a convolutionally encoded and filtered link.
- Delays
Computing delays in multirate models and in models having multiple delays.
- Matrices, Vectors, and Scalars
Simulink® supports matrix signals, one-dimensional arrays, sample-based processing, and frame-based processing.
- Floating-Point and Fixed-Point Data Types
The inputs and outputs of the communications blocks support various data types.
- Fixed-Point Integer to Bit and Bit to Integer Conversion in Simulink
Use the Bit to Integer Converter (Simulink) and Integer to Bit Converter (Simulink) blocks in an example with fixed-point signals that performs audio scrambling and descrambling in Simulink®.