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　　陳景波，男，博士，研究員，博士生導師。2001年6月在中國科學(xué)院數學(xué)與系統科學(xué)研究院獲博士學(xué)位，2001年7月至2003年8月在中國科學(xué)院理論物理研究所做博士后，2003年9月到中國科學(xué)院地質(zhì)與地球物理研究所油氣資源室工作。擔任勘探地球物理學(xué)家學(xué)會(huì )(SEG)會(huì )員和美國數學(xué)學(xué)會(huì )數學(xué)評論評論員。擔任國內外多種學(xué)術(shù)期刊的評審和SEG年會(huì )論文的評審。主持和參加完成國家自然科學(xué)基金項目、973項目和863項目多項。
????主要研究領(lǐng)域包括地震波數值模擬、地震偏移成像、全波形反演和微分方程保結構算法等。在地震波數值模擬方面，發(fā)展了地震波數值模擬的保結構算法，在保持算法的效率的基礎上提高了算法的整體精度；在地震偏移成像方面，系統地發(fā)展了地震波算子的可分近似理論和算法，提高了地震波算子的近似算法在強橫向變速地質(zhì)條件下的精度, 同時(shí)保持了算法的效率；在全波形反演方面，發(fā)展了基于相速度和波場(chǎng)衰減傳播速度相耦合的復頻率域波動(dòng)方程數值分析理論，提出了作為復頻率域全波形反演基礎的復頻率域數值模擬的平均導數方法，不僅減少了數值頻散，而且適用于不同的方向采樣間隔，增加了方法的靈活性并拓展了應用范圍。已發(fā)表學(xué)術(shù)論文77篇，其中SCI收錄70篇。

地震波傳播和成像

1. 頻率域波動(dòng)方程高階平均導數優(yōu)化方法的研究和應用, 國家自然科學(xué)基金, 2015.1-2018.12, 主持。
2. 地震波傳播與成像保持效率的高精度算法的研究, 國家自然科學(xué)基金, 2013.1-2016.12, 主持。
3. 地震成像幾何算法及GPU/CPU協(xié)同并行計算, 國家自然科學(xué)基金, 2010.1-2012.12, 主持。?
4. 三維地震偏移成像最優(yōu)可分近似理論和算法, 國家自然科學(xué)基金, 2008.1-2010.12, 主持。
5. 三維波動(dòng)方程疊前偏移的幾何算法, 國家自然科學(xué)基金, 2005.1-2007.12, 主持。
6. 保持動(dòng)力學(xué)特性的地震成像方法, 973項目, 2007-2011, 參加。
7. 海量三維地震數據深層成像技術(shù)與裝備, 863項目, 2011-2015, 參加。
8. 角度道集合成技術(shù)和層間多次波壓制方法,?863項目,?2006-2010, 參加。

1. Hao Wang and Jing-Bo Chen*, 2023, Frequency-domain elastic wave modeling for vertically isotropic media with an average-derivative optimal method, Geophysics, 88(5), T237-T258.
2. Shu-Li Dong and Jing-Bo Chen*, 2023, Finite-difference modeling of 3D frequency-domain elastic wave equation using an affine mixed-grid method, Geophysics, 88(2), T45-T63.
3. Shu-Li Dong and Jing-Bo Chen*, 2022, An affine generalized optimal scheme with improved free-surface expression using adaptive strategy for frequency-domain elastic wave equation, Geophysics, 87(3), T183-T204.
4. Jing-Bo Chen, Jian Cao and Zheng Li, 2021, A comparative study on the stress image and adaptive parameter-modified methods for implementing free surface boundary conditions in elastic wave numerical modeling, Geophysics, 86(6), T451-T467.
5. Jing-Bo Chen, 2020, A new method for numerical dispersion analysis of Laplace-domain 2-D elastic wave equation, Exploration Geophysics, 51, 456-468.
6. Jing-Bo Chen and Jian Cao, 2020, Green's function for three-dimensional elastic wave equation with a moving point source on the free surface with applications, Geophysical Prospecting, 68, 1281-1290.
7. Jing-Bo Chen and Jian Cao, 2018, An average-derivative optimal scheme for modeling of the frequency-domain 3D elastic wave equation, Geophysics, 83(4), T209-T234.
8. Jing-Bo Chen and Meng-Xue Dai, 2017, Accuracy-constrained? optimization methods for staggered-grid elastic wave modelling,? Geophysical Prospecting, 65(S1), 150-165.
9. Jing-Bo Chen and Jian Cao, 2016, Modeling of frequency-domain elastic wave equation with an average-derivative method,? Geophysics, 81(6), T339-T356.? [PDF]
10. Jing-Bo Chen, 2016, Numerical dispersion analysis?for three-dimensional Laplace-Fourier-domain? scalar wave equation, Exploration Geophysics, 47, 158-167.? [PDF]
11. Jing-Bo Chen, 2014, Dispersion analysis of an average-derivative optimal scheme for Laplace-domain scalar wave equation, Geophysics, 79(2), T37-T42. [PDF]
12. Jing-Bo Chen, 2014, Laplace-Fourier-domain dispersion analysis of an average derivative optimal scheme for scalar-wave equation, Geophysical Journal International, 197(3), 1681-1692. [PDF]
13. Jing-Bo Chen, 2014, A 27-point scheme for a 3D frequency-domain scalar wave equation based on an average-derivative method, Geophysical Prospecting, 62, 258-277. [PDF]
14. Jing-Bo Chen and Shu-Hong Cao, 2014, Comparison of two schemes for Laplace-domain scalar wave quation, Journal of Applied Geophysics, 108, 194-198. [PDF]
15. Jing-Bo Chen, 2013, A generalized optimal 9-point scheme for frequency-domain scalar wave equation, Journal of Applied Geophysics, 92, 1-7. [PDF]
16. Jing-Bo Chen, 2012, An average-derivative optimal scheme for frequency-domain scalar wave equation,Geophysics, 77(6), T201-T210. [PDF]
17. Jing-Bo Chen, Guo-Feng Liu and Hong Liu, 2012, Seismic imaging based on spectral differentiation matrix and GPU implementation, Journal of Applied Geophysics, 79, 1-5. [PDF]
18. Jing-Bo Chen, 2011, A stability formula for Lax-Wendroff methods with fourth-order?in time and general-order in space for the scalar wave equation, Geophysics, 76(2), T37-T42. [PDF]?
19. Jing-Bo Chen, 2010, On the selection of reference velocities for split-step Fourier and generalized-screen migration methods, Geophysics, 75(6), S249-S257. [PDF]
20. Jing-Bo Chen and Shu-Yuan Du, 2010, Kinematic characteristics and the influence of reference velocities of phase shift plus interpolation and extended split step Fourier migration methods, Geophysical Prospecting,? 58,?429-439.?[PDF]
21. Jing-Bo Chen, 2009, Lax-Wendroff and Nystr？m methods for seismic modeling,? Geophysical Prospecting, 57, 931-941. [PDF]
22. Jing-Bo Chen, 2007, High-order time discretizations in seismic modeling, Geophysics, 72(5), SM115-SM122. [PDF]
23. Jing-Bo Chen, Hong Liu and Zhi-Fu Zhang, 2007,?A separable-kernel decomposition method for approximating the DSR continuation operator, Geophysics, 72(1), S25-S31. [PDF]
24. Jing-Bo Chen and Hong Liu, 2006, Two kinds of separable approximations for the one-way wave operator, Geophysics, 71(1), T1-T5. [PDF]
25. Jing-Bo Chen, 2006, Modeling the scalar wave equation with Nystr？m methods, Geophysics, 71(5), T151-T158. [PDF]
26. Jing-Bo Chen and Hong Liu, 2004, Optimization approximation with separable variables for the one-way wave operator, Geophysical Research ?Letters, 31, L06613. [PDF]
27. Jing-Bo Chen and Hong Liu, 2008, Modal expansion of one-way operators based on spectral differentiation matrix, Appl. Math. Comp., 206, 193-197.
28. Jing-Bo Chen and Hong Liu, 2008, Derivation of Lagrangian density for the 'good' Boussinesq equation and multisymplectic discretizations, Appl. Math. Comp., 204, 58-62.
29. Jing-Bo Chen, 2008, Variational integrators and the finite element method, App. Math. Comp., 196, 941-958.
30. Jing-Bo Chen and Hong Liu, 2008, Two kinds of square conservative integrators for nonlinear evolution equations, Chin. Phys. Lett., 25, 1168-1171.
31. Jing-Bo Chen and Hong Liu, 2008, Multisymplectic pseudospectral discretizations for (3+1)-dimensional Klein-Gordon equation, Commun. Theor. Phys., 50, 1502-1504.
32. Jing-Bo Chen, Meng-Zhao, Qin and Rudolf Scherer, 2008,?Multisymplectic and variational integrators, Inter. J. Pure. Appl. Math., 44, 509-536.
33. Jing-Bo Chen, Hong Liu and Deng-Guo Zhou, 2007, A Hamiltonian framework for wavefield depth continuation in seismic imaging, Wave Motion, 44, 385-394.
34. Jing-Bo Chen and Shu-Yuan Du, 2007, Multisymplectic structures and discretizations for one-way wave equations, Lett.? Math.? Phys. ?79, 213-220.
35. Jing-Bo Chen, 2007, Multisymplectic geometry and its applications for the Schrodinger equation in quantum mechanics, Chin. Phys. Lett., 24, 370-373.
36. Jing-Bo Chen, 2007, A multisymplectic pseudospectral method for seismic modeling, Appl. Math. Comp., 186, 1612-1616.
37. Jing-Bo Chen, 2006, Symplectic and myltisymplectic Fourier pseudospctral methods for the Klein-Gordon equation, Lett.? Math.? Phys., ?75, 293-305.
38. Jing-Bo Chen, 2006, A multisymplectic variational framework for the nonlinear elastic wave equation, Chin. Phys. Lett., 23, 320-323.
39. Jing-Bo Chen, Han-Ying Guo and Ke Wu, 2006, Discrete variational calculus and Lee's discrete mechanics, Appl. Math. Comp., 177, 226-234.
40. Jing-Bo Chen, 2005, A multisymplectic integrator for the periodic nonlinear Schrodinger equation, Appl. Math. Comp., 170, 1394-1417.
41. Jing-Bo Chen, 2005, Variational formulation for the multisymplectic Hamiltonian systems, Lett.? Math.? Phys.,? 71,? 243-253.
42. Jing-Bo Chen, 2005, Multisymplectic geometry, local conservation laws and Fourier pseudospectral discretization for the good Boussinesq equation, Appl. Math. Comp., 161,? 55-67.
43. Jing-Bo Chen, 2005, Euler-Lagrange forms and cohomology groups on jet boundls, Chin. Phys. Lett., 22, 1858-1861.
44. Jing-Bo Chen, 2004,Multisymplectic geometry for the seismic wave equation, Commun. Theor. Phys., 41, 561-566.
45. Jing-Bo Chen, 2004, Multisymplectic Hamiltonian formulation for a one-way seismic equation of high-order,?Chin. Phys. Lett., 21, 37-39.
46. Jing-Bo Chen, H.Y. Guo and K. Wu, 2003, Discrete mechanics and the finite element method, Arc. Appl. Mech., 73, 421-433.
47. Jing-Bo Chen, 2003, Multisymplectic geometry, local conservation laws and a multisymplectic integrator for the Zakharov-Kuznetsov equation, Lett. Math. Phys., 63, 115-124.
48. Jing-Bo Chen, H.Y. Guo and K. Wu, 2003, Total variation in Hamiltonian formalism and symplectic-energy integrators, J. Math. Phys., 44, 1688-1702.
49. Jing-Bo Chen and Meng-Zhao Qin, 2003, Multisymplectic composition integrators of high-order, J. Comp. Math., 21, 647-656.
50. Jing-Bo Chen, Hans Munthe-Kaas and Meng-Zhao Qin, 2002, Square-conservative schemes for a class of evolution equations using Lie-group methods, SIAM J.? Numer.? Anal., ?39, 2164-2178.
51. Jing-Bo Chen, 2002, Total variation in discrete multisymplectic field theory and multisymplectic energy momentum integrators, Lett.? Math.? Phys.,? 61, 63-73.
52. Jing-Bo Chen, 2002, Multisymplecticity of Crank-Nicolson scheme for the nonlinear Schr？dinger equation, J.? Phys.? Soc.? Jap.,? 71, 2348-2349.?
53. Jing-Bo Chen, Meng-Zhao Qin and Yi-Fa Tang, 2002, Symplectic and multisymplectic methods for the nonlinear Schr？dinger equation, Comput.? Math.? Appl., 43, 1095-1106.?
54. Jing-Bo Chen and Meng-Zhao Qin, 2002,?A multisymplectic variational integrator for the nonlinear Schr？dinger equation, Numer.? Meth.? Part.? Diff.? Eq., ?18, 523-536.
55. Jing-Bo Chen and Meng-Zhao Qin, 2001, Multisymplectic Fourier pseudospectral method for the nonlinear Schrodinger equation,? Eelctr. Tran. Numer. Anal., 12, 193-204.
56. Jing-Bo Chen, 2001, New schemes for the nonlinear Schr？dinger equation, Appl. Math. Comp., 124, 371-379.

已授權發(fā)明專(zhuān)利：

1. 一種三維聲波方程任意域多尺度全波形反演方法及裝置，專(zhuān)利號：ZL201610921005.7，發(fā)明人：陳景波, 戴夢(mèng)雪, 曹健。
2. 三維Laplace域聲波方程數值模擬方法及裝置，專(zhuān)利號：ZL201610675022.7，發(fā)明人：陳景波，戴夢(mèng)雪。