Mathematical models for cochannel interference in FH/MFSK multiple-access systems
Abstract
FH/MFSK has been proposed for a multiuser spread spectrum digital communication system to combat both self-jamming and intentional jamming. An independence assumption at the energy detector outputs is used to evaluate such a system for a digitized voice mobile radio system (Yue, 1981). This paper presents a correlated model and compares its performance to an independence model under the symbol error probability criterion. A Gaussian process model is also developed for comparison. It is found that the conventional Gaussian approximation is inadequate in predicting the number of users that can be accommodated by an FH/MFSK system using the conventional receiver. Furthermore, for the cases evaluated, the independence model provides an excellent approximation to the correlated model. Additionally, a conditional Chernoff bound is presented for the more general case of frequency-hopping systems with multiple hops per symbol.
- Publication:
-
IEEE Transactions on Communications
- Pub Date:
- June 1984
- Bibcode:
- 1984ITCom..32..670Y
- Keywords:
-
- Bit Error Rate;
- Channel Noise;
- Frequency Division Multiple Access;
- Frequency Hopping;
- Mathematical Models;
- Spread Spectrum Transmission;
- Channel Capacity;
- Digital Systems;
- Electromagnetic Interference;
- Error Analysis;
- Frequency Shift Keying;
- Jamming;
- Probability Theory;
- Pulse Communication;
- Communications and Radar