표제지
논문 개요
목차
I. 서론 12
II. 관련 연구 16
1. 화이트박스 암호 16
2. 데이터 압축 21
III. 룩업 테이블 사이즈를 고려한 암호화 기법 23
1. 제안 아이디어 23
2. 실험 조건 및 환경 25
3. 실험 결과 및 분석 27
IV. 데이터 처리 효율성 향상을 위한 압축 기법 36
1. 제안 아이디어 36
2. 실험 조건 및 환경 38
3. 실험 결과 및 분석 40
V. 결론 및 향후 연구 50
참고 문헌 53
ABSTRACT 57
TABLE I. Lossy Compression and Lossless Compression 22
TABLE II. Experimental Environment and Version 26
TABLE III. Experimental Environment and Version 39
FIGURE 1. Operation of AES and WB-AES 17
FIGURE 2. Basic Principles of WB-AES 18
FIGURE 3. Proposed Scheme 24
FIGURE 4. Latency Comparison of Chow and XiaoLai Schemes with Increasing Kilobytes: (a) Chow Scheme; (b) XiaoLai Scheme 28
FIGURE 5. Memory size Comparison of Chow and XiaoLai Schemes with Increasing Kilobytes: (a) Chow Scheme; (b)... 29
FIGURE 6. Latency Comparison of Chow and XiaoLai Schemes with Increasing Number of Tables 31
FIGURE 7. Memory Size Comparison of Chow and XiaoLai Scheme with Increasing Number of Tables 32
FIGURE 8. Comparison of Proposed and Conventional Chow Scheme with Traffic Load Rate 33
FIGURE 9. Comparison of Proposed and Conventional XiaoLai Schem with Traffic Load Rate 35
FIGURE 10. Proposed Scheme 37
FIGURE 11. Comparison of Latency of Original and Huffman and PCA with Image Data Ratio 41
FIGURE 12. Comparison of Memory of Original and Huffman and PCA with Image Data Ratio 42
FIGURE 13. Comparison of Compression Rate of Huffman and PCA with Image Data Ratio 43
FIGURE 14. Comparison of The number of data of Original and Huffman and PCA with Image Data Ratio 46
FIGURE 15. Comparison of latency variations between Original, Huffman, and PCA according to data size 47
FIGURE 16. Comparison of Memory Size Changes in Original, Huffman, and PCA according to Data Size 48
FIGURE 17. Comparison of Compression Ratio Changes between Original, Huffman, and PCA according to Data Size 49