国际期刊：

1. R. Yeung, A. Al-Bashabsheh, C. Chen, Q. Chen, and P. Moulin, “On Information-theoretic characterizations of Markov random fields and subfields,” IEEE Transactions on Information Theory, to be published. 
2. X. Jiao, H.Wei, J. Mu, and C. Chen, “Improved ADMM penalized decoder for irregular low-density parity-check codes,” IEEE Communications Letters, vol.19, no.6, pp.913–916, June 2015.
3. C. Chen, X. Wang, B. Bai, and G. Shi, “Constant weight codes from constant dimension codes and their applications,” IEEE Communications Letters, vol.19, no.3, pp.311–314, Aug. 2015.
4. C. Chen, B. Bai, G. Shi, X. Wang, and X. Jiao,  “Non-binary LDPC codes on cages: Structural property and code optimization,” IEEE Transactions on Communications, vol.63, no.2, pp.364–375, Sept. 2015. 
5. C. Chen, H. Xie, and B. Bai, “la[ant]yered subspace codes for random network coding,” Transactions on Emerging Telecommunications Technologies, vol.26, no.3, pp.461–468, Nov. 2015.
6. C. Chen, B. Bai, X. Yang, L. Li, and Y. Yang, “Enhancing iterative decoding of cyclic LDPC codes using their automorphism groups,” IEEE Transactions on Communications, vol.61, no. 6, pp.2128–2137, June, 2013.
7. C. Chen, B. Bai, Z. Li, X. Yang, and L. Li, “Nonbinary cyclic LDPC codes derived from idempotents and modular Golomb rulers,” IEEE Transactions on Communications, vol.60, no.3, pp.661–668, Mar. 2012.
8. S. Hu, C. Chen, R. Sun, and X. Wang, “Design of quasi-cyclic cycle LDPC codes over GF(q),” IEICE Trans. Commun., 95-B(3), pp.983–986, Mar. 2012.
9. Y. Yang, C. Chen, J. Mu, J. Wang, R. Sun, and X. Wang, “Nonbinary quasi-cyclic LDPC cycle codes with low-density systematic quasi-cyclic generator matrices,” IEICE Trans. Commun., vol.E94-B, no.09, pp.2620–2623, Sept. 2011.
10. D. Zhao, X. Ma, C. Chen, and B. Bai, “A low complexity decoding algorithm for majority-logic decodable nonbinary LDPC codes,” IEEE Communications Letters, vol.14, no.11, pp.1062–1064, Oct. 2010.
11. C. Chen, B. Bai, and X. Wang, “Construction of quasi-cyclic LDPC codes based on a two-dimensional MDS code,” IEEE Communications Letters, vol.14, no.5, pp.447–449, May 2010.
12. C. Chen, B. Bai, X. Wang, and M. Xu, “Nonbinary LDPC codes constructed based on a cyclic MDS code and a low-complexity nonbinary message-passing decoding algorithm,” IEEE Communications Letters, vol.14, no.3, pp.239–241, Mar. 2010.
13. C. Chen, B. Bai, and X. Wang, “Construction of nonbinary quasi-cyclic LDPC cycle codes based on Singer perfect difference set,” IEEE Communications Letters, vol.14, no.2, pp.181–183, Feb. 2010.

国际会议：

1. C. Chen, H. Liu, and B. Bai, “Finite Hyperplane Codes Minimum Distance and Majority-Logic Decoding,”  in Proc. IEEE International Symposium Information Theory (ISIT),  2018.
2. R. Yeung, A. Al-Bashabsheh, C. Chen, Q. Chen, and P. Moulin, “Information-theoretic characterizations of Markov random fields and subfields,”  in Proc. IEEE International Symposium Information Theory (ISIT),  2017.
3. C. Chen, B. Bai, X. Ma, and X. Wang, “A symbol-reliability based message-passing decoding algorithm for nonbinary LDPC codes over finite fields,” in Proc. 6th International Symposium on Turbo Codes & Iterative Information Processing, Brest, France, Sept. 2010.
4. C. Chen, B. Bai, and X. Wang, “Two-dimensional generalized Reed-Solomon codes: A unified fr[ant]amework for quasi-cyclic LDPC codes constructed based on finite fields,” in Proc. IEEE International Symposium Information Theory (ISIT), Austin, USA, June 2010.