원문정보
보안공학연구지원센터(IJGDC)
International Journal of Grid and Distributed Computing
Vol.9 No.6
2016.06
pp.279-288
초록
영어
Voice enabled ignition combines the speaker recognition and word recognition aspects of speech recognition. It replaces the function of a key in the starting of the ignition system of a car. An Fpga design incorporates the required components of a generic speech recognition system and uses the unique capabilities of hardware in term of parallelism to improve performance. The compression of speech for storage and playback was facilitated by the usage of the G729 standard for compression of speech.
목차
Abstract
1. Introduction
A. Human Speech
B. Types of Voice Recognition and Strategies in voice Recognition
C. Car Security and Ignition
D. Modal Based Speech Compression
2. Review of Previous Literature
A. Adapted Strategy for voice recognition
B. Model Based Speech Compression g279
C. Previous Implementations
D. Noise
E. Considerations
F. Other Applications
G. Other Requirements
3. Methodology
4. System Analysis
5. Conclusion
References
1. Introduction
A. Human Speech
B. Types of Voice Recognition and Strategies in voice Recognition
C. Car Security and Ignition
D. Modal Based Speech Compression
2. Review of Previous Literature
A. Adapted Strategy for voice recognition
B. Model Based Speech Compression g279
C. Previous Implementations
D. Noise
E. Considerations
F. Other Applications
G. Other Requirements
3. Methodology
4. System Analysis
5. Conclusion
References