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王景强
副研究员
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0532-88967127
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wangjqfio@fio.org.cn
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2020/12至今,海洋地质与地球物理研究室,副研究员

2018/07-2020/12,海洋地质与地球物理研究室,助理研究员

2015/08-2018/07,海洋地质与地球物理研究室,博士后

2010/09-2015/06,中国科学院海洋研究所,海洋地质专业,硕博连读

2006/09-2010/06,中国海洋大学,环境科学与工程学院,环境工程专业,本科


发表论文:

1) Wang Jingqiang, Li Guanbao, Kan Guangming, Hou Zhengyu*, Meng Xiangmei*, Liu Baohua, Liu Chenguang, Sun Lei. 2021. High frequency dependence of sound speed and attenuation in coral sand sediments. Ocean Engineering. 234, Article 109215.

2) 王景强,李官保*,阚光明, 刘保华, 孟祥梅. 2020.深海海底沉积物声学特性原位测量试验研究.地球物理学报,63(12): 4463-4472.

3) Wang Jingqiang, Hou Zhengyu*, Li Guanbao, Kan Guangming, Meng Xiangmei, Liu Baohua. 2019. A new compressional wave speed inversion method based on granularity parameters, IEEE Access. 7: 185849-185856

4) Wang Jingqiang, Liu Baohua, Kan Guangming*, Li Guanbao, Zheng Jiewen, Meng Xiangmei. 2018. Frequency dependence of sound speed and attenuation in fine-grained sediments from 25 to 250 kHz based on a probe method. Ocean Engineering, 160: 45-53.

5) Wang Jingqiang, Li Guanbao*, Liu Baohua, Kan Guangming, Sun Zhiwen, Meng Xiangmei, and Hua Qingfeng. 2018. Experimental study of the ballast in-situ sediment acoustic measurement system in South China Sea. Marine Georesources & Geotechnology, 36 (5): 515-521

6) Wang Jingqiang*, Guo Chagnsheng*, Liu Baohua, Hou Zhengyu, and Han Guozhong. 2016. Distribution of geoacoustic properties and related influencing factors of surface sediments in the southern South China Sea. Marine Geophysical Research. 37(4): 337-348

7) Wang Jingqiang*, Liu Baohua, Kan Guangming, Li Guanbao, Meng Xiangmei. 2017. Laboratory measurements of sound speed and attenuation dispersion in calcareous sediments from coral reefs. Journal of the Acoustical Society of America, 142(4): 2623-2623.

8) Wang Jingqiang, Guo Changsheng*, Hou Zhengyu, Fu Yongtao, and Yan Jun. 2014. Distributions and vertical variation patterns of sound speed of surface sediments in South China Sea. Journal of Asian Earth Sciences, 89: 46-53

9) Wang Jingqiang*, Han Guozhong, Xie Qiuhong, Guo Changsheng, Hou Zhengyu, and Liu Baohua. 2016. Sound Speed Structure Models of Seafloor Sediments in the Southern South China Sea. Ocean Acoustics (COA), 2016 IEEE/OES China, 1-5.

10) 王景强,郭常升*,刘保华,侯正瑜,韩国忠. 2016. 基于Buckingham模型和Biot-Stoll模型的南沙海域沉积物声速分布特征,地球学报,37(3): 359-367

11) 王景强,郭常升*,付永涛. 2013. 小波分析在海底沉积物声速原位测量中的应用,地球物理学进展,2013,28(6): 3317-3323

12) 王景强, 郭常升*, 李会银. 2013. 声学原位测量系统在胶州湾的测量试验研究, 中国海洋大学学报(自然科学版), 43(3): 75-80

13) Guanbao Li, Jingqiang Wang*, Baohua Liu, Xiangmei Meng, Guangming Kan, Guozhong Han, Qingfeng Hua, Yanliang Pei, Lei Sun. 2020. In situ acoustic properties of fine-grained sediments on the northern continental slope of the South China Sea, Ocean Engineering, 218

14) Kan Guangming, Cao Guolin, Wang Jingqiang*, Li Guanbao, Liu Baohua, Meng Xiangmei, Meng Qingsheng. 2020. Shear Wave Speed of Shallow Seafloor Sediments in the Northern South China Sea and Their Correlations With Physical Parameters. Earth and Space Science, 7 (3)

15) Kan Guangming, Liu Baohua, Wang Jingqiang*, Meng Xiangmei, Li Guanbao, Hua Qingfeng, Sun Lei. 2018. Sound Speed Dispersion Characteristics of Three Types of Shallow Sediments in the Southern Yellow Sea. Marine Georesources & Geotechnology, 36 (7): 853-860

16) Li Guanbao, Wang Jingqiang*, Liu Baohua, Meng Xiangmei, Kan Guangming, Pei Yanliang. 2019. Measurement and modeling of high-frequency acoustic properties in fine sandy sediments. Earth and Space Science, 6 (11): 2057-2070.  

17) Kan Guangming, Zou Dapeng, Liu Baohua, Wang Jingqiang*, Meng Xiangmei, Li Guanbao, Pei Yanliang. 2019. Correction for effects of temperature and pressure on sound speed in shallow sea, Marine Georesources & Geotechnology 37 (10): 1217-1226

18) Sun Lei, Meng Xiangmei, Wang Jingqiang*, Li Guanbao, Kan Guangming, Liu Baohua, Lu Dequan. 2020. Research on the sediment acoustic properties based on a water coupled laboratory measurement system, Marine Georesources & Geotechnology, 38(5): 595-603

19) Li Guanbao, Hou Zhengyu*, Wang Jingqiang, Kan Guangming, Liu Baohua. 2021. Empirical Equations of P-Wave Velocity in the Shallow and Semi-Deep Sea Sediments from the South China Sea. J. Ocean Univ. China. 20 (3): 532-538

20) Sun Zhiwen, Kan Guangming*, Wang Jingqiang, Jia Yonggang, Meng Xiangmei, Li Guanbao, Pei Yanliang. 2021. Characteristics of shear waves in shallow seafloor sediment in the Middle Southern Yellow Sea, Marine Georesources & Geotechnology, doi: 10.1080/1064119X.2021.1900473

21) Hou Zhengyu, Wang Jingqiang, Chen Zhong*, Yan Wen, Tian Yuhang.  2019. Sound velocity predictive model based on physical properties. Earth and Space Science, 6 (8): 1561-1568. 

22) Hou Zhengyu, Guo Changsheng*, Wang Jingqiang. 2019. Drag-type in-situ acoustic measurement system: Design, operation, and experimental results, Marine Georesources & Geotechnology, 37(1): 103-108

23) Lv Bin*, Qi Guoliang, Li Guanbao, Kan Guangming, Wang Jingqiang, Liu Jie. 2020. Study on visual control system of acoustic in situ measurement technology for survey of seafloor sediment, Marine Georesources & Geotechnology, 38(3): 363-373

24) Hou Zhengyu, Chen Zhong*, Wang Jingqiang, Zheng Xufeng, Yan Wen, Tian Yuhang, Yun Luo. 2018. Acoustic characteristics of seafloor sediments in the abyssal areas of the south china sea. Ocean Engineering, 156, 93-100.

25) Hou Zhengyu, Chen Zhong*, Wang Jingqiang, Zheng Xufeng, Yan Wen, Tian Yuhang, Yun Luo. 2018. Acoustic impedance properties of seafloor sediments off the coast of Southern Hainan, South China Sea. Journal of Asian Earth Sciences, 154, 1-7.

26) Hou Zhengyu, Guo Changsheng*, Wang Jingqiang, Chen Wenjing, Li Tiegang, Zhang Yanxin, and Fu Yongtao. 2017. Analysis of the Influences of Physical Parameters on Sediment Sound Speed. Marine Georesources & Geotechnology, 35(4): 466-471.

27) Zhang Yanxin, Guo Changsheng*, Wang Jingqiang, Hou Zhengyu, and Chen Wenjing. 2017. Relationship between in situ sound velocity and granular characteristics of seafloor sediments in the Qingdao offshore region. Journal of Oceanology and Limnology, 35 (3): 704-711

28) Hou Zhengyu, Guo Changsheng*, Wang Jingqiang, Chen Wenjing, Fu Yongtao, and Li Tiegang, 2015. Seafloor Sediment Study from South China Sea: Acoustic & Physical Property Relationship, Remote Sensing, (7): 11570-11585

29) Hou Zhengyu, Guo Changsheng*, Wang Jingqiang, Li Huiyin, and Li Tiegang, 2014. Tests of new in-situ seabed acoustic measurement system in Qingdao, Chinese Journal of Oceanology and Limnology, 32(5): 1172-1178

30) Meng Xiangmei, Wang Jingqiang, Hua Qingfeng, Li Guanbao, Kan Guangming. 2017. In situ and laboratory acoustic attenuation measured in the sediments of the southern Yellow Sea. Journal of the Acoustical Society of America, 142(4): 2623-2623.

31) Li Guanbao, Liu Baohua, Kan Guangming, Wang Jingqiang, Meng Xiangmei. 2017. The development and experimental study of the Ballast in situ Sediment Acoustic Measurement System. Journal of the Acoustical Society of America, 142(4): 2622-2622.

32) 孙蕾, 王景强, 李官保, 孟祥梅, 阚光明, 刘保华. 2021. 白令海和楚科奇海表层沉积物的声速特性.海洋科学进展, 39(3): 452-460.

33) 李官保, 周庆杰,华清峰, 王景强, 刘晨光, 刘保华. 2021. 楚科奇海北部浅地层结构对古冰川活动的指示. 海洋科学进展, 39(3): 393-402.

34) 周庆杰,李西双,刘乐军,刘洋廷,高珊,周航,王景强,李天光. 2020. 基于 Chirp 数据和 Biot-Stoll 模型反演南海北部陆坡海底表层沉积物物理性质. 海洋学报,42(3):72–82.

35) 吕斌*,祁国梁,李官保,王景强,刘杰. 2018. 海底底质声学原位测量电路控制系统研究. 海洋科学,42(5) : 32-39.

36) 孙志文,孙蕾,阚光明*,李官保,郭常升,王景强,孟祥梅. 2018. 菲律宾海深海海底沉积物声学特性与物理性质相关关系. 海洋科学,42(5) : 12-22.

37) 侯正瑜, 郭常升*, 王景强, 付永涛,李铁刚. 2016. 利用Gassmann方程预测海底沉积物孔隙度. 地球科学: 中国地质大学学报, 41(7): 1198-1205.

38) 陈文景,郭常升*,王景强,侯正瑜,2016. 基于遗传BP神经网络的海底沉积物声速预报,海洋学报(中文版), 38(1): 116-123.

39) 侯正瑜,郭常升*,王景强,付永涛,李铁刚,2015. 一种新型海底沉积物声学原位测量系统的研制及应用,地球物理学报,06:1976-1984

40) 刘宾*,王景强,张振波,周章国,宋德龙,付永涛,2015. 海洋磁力数据地磁日变时差校正的局部极值比对法,海洋科学,39(10): 73-79

41) 侯正瑜,郭常升,王景强,2013. 南沙海域深水区表层沉积物声速与孔隙度相关关系,海洋科学,37(3): 77-82

 

授权专利/软著:

1. 王景强, 孟祥梅, 阚光明, 李官保, 刘保华, 鲁德泉, 董武文, 一种海底沉积物原位声学特性测试系统. 国内实用新型专利, 授权号:ZL202021120786.8. 授权日期:2020-11-26

2. 王景强, 高平, 刘晓磊, 张莹莹, 刘恒宇, 孙蕾, 夏雪, 一种用于全海深原位剪切力测量的装置. 国内实用新型专利, 授权号:ZL202021882621.4. 授权日期:2021-5-18 

3. 王景强,陈新宁,陈凯,李官保,孙蕾, 多通道信号模拟数字实时处理矩阵系统. 国内实用新型专利, 授权号:ZL202022674282.7. 授权日期:2021-06-01

4. 王景强,郭常升,李桂山,李会银,付永涛,周章国, 一种海底沉积物声学原位取样测量系统. 国内实用新型专利, 授权号:ZL202022880226.9. 授权日期:2021-06-08

5. 孟祥梅, 王景强, 董武文, 阚光明, 李官保, 刘保华, 鲁德泉, 潘正祺, 一种海底沉积物原位剪切波发射换能器. 国内实用新型专利, 授权号:ZL202020040779.0. 授权日期:2020-01-09

6. 侯正瑜, 王景强, 颜曦, 董武文, 一种声学信号收发一体化系统. 国内实用新型专利, 授权号:ZL201920779425.5. 授权日期:2020-02-21

7. 孟祥梅, 王景强, 李官保, 阚光明, 海底沉积物声学剖面测量装置. 国内实用新型专利, 授权号:201821203161.0. 授权日期:2019-02-19

8. 孙蕾, 张莹莹, 刘敬喜, 李官保, 王景强, 刘保华, 阚光明, 孟祥梅, 海底沉积物柱状取样器及其搭载于原位测量系统的取样器.国内实用新型专利, 授权号:ZL202021682977.3. 授权日期:2020-08-12 

9. 孟祥梅, 孙蕾, 阚光明, 李西双, 李官保, 王景强, 一种可水耦合岩芯声学参数测试平台. 国内实用新型专利, 授权号:201821205051.8. 授权日期:2019-02-19

10. 孟祥梅, 王景强, 阚光明, 李官保, 沉积物声速和声衰减测量装置. 国内实用新型专利, 授权号:201821203110.8. 授权日期:2019-02-19

11. 阚光明, 孟祥梅, 刘保华, 裴彦良, 李官保, 刘晨光, 王景强, 鲁德泉, 一种自适应沉积物柱状样品声学特性测量装置. 国内实用新型专利, 授权号:201820263641.X. 授权日期:2018-11-02

12. 杨光兵, 王景强, 刘敬喜, 冯志涛, 杨志国, 潘耀宗, 熊学军, 马德静, 海底沉积物声学性质和温度剖面的原位定点连续测量装置. 国内实用新型专利, 授权号:201821221834.5. 授权日期:2019-02-01


1. 国家自然科学基金面上项目:海底沉积物的剪切波传播特性(500Hz-3kHz)及频散机制,42176191,2022.1-2025.12,58万,在研,主持

2. 国家重点研发计划子课题:海底沉积物力学特性的原位测试装置,2018YFC0309200,2018/05-2021-05,30万,在研,主持

3. 水声对抗国防科技重点实验室基础基金:JKCY xxx,XX 北部海底底质声速特性及频散模型研究,2020-06-2021-06,30万,在研,主持

4. 国家自然科学基金青年项目:海底沉积物颗粒非均匀性对声学特性的影响研究,41706062,2018.1-2020.12,25万,结题,主持

5. 山东省自然科学基金博士基金:珊瑚礁钙质沉积物的高频声学特性研究,ZR2017BD031,2017/07--2019/06,9万,结题,主持

6. 声场声信息国家重点实验室开放基金:南海岛礁区海底钙质沉积物的声学特性研究,SKLA201707,2017/01-2018/12,7万,结题,主持

7. 中国科学院海洋地质与环境重点实验室开放基金:珊瑚礁钙质砂的高频声学特性研究,MGE2016KG06,2016/08-2018/07,5万,结题,主持

8. 国家自然科学基金委员会面上项目:南黄海底质声学特性对海底温度季节性波动的响应研究,42076082,2021/01-2024/12,65万,在研,参加

9. 国家自然科学基金委员会面上项目:海底沉积物中低频(500 Hz-25 kHz)地声模型及频散特征研究,41676055,2017/01-2020/12,70万,结题,参加

10. 国家自然科学基金青年项目:天气过程中底层水温变化对浅表层底质影响的观测研究,41706038,2018/01-2020/12,24万,结题,参加