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鏉庣珷鐓滅畝浠?鐢靛瓙淇℃伅宸ョ▼瀛﹂櫌-凯发国际官方网站入口

鏉ユ簮锛? 浣滆€咃細 缂栬緫锛? 瀹℃牳锛? 涓婁紶锛? 鏃ユ湡锛?022-01-10 鐐瑰嚮锛?script>_showdynclicks("wbnews", 1707945590, 2409)

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鏁欏笀鑳屾櫙


瀛?/span> 鍘?/span>

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鎵€鍦ㄥ闄?/span>

鏃?/span> 闂?/span>

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绾界害宸炵珛澶у甯冩硶缃楀垎鏍?/span>

鐢垫皵宸ョ▼瀛﹂櫌

2017.8-2021.8

纭?/span> 澹?/span>

绾界害宸炵珛澶у瀹炬眽濮嗛】鍒嗘牎

鐢靛瓙涓庤绠楁満宸ョ▼瀛﹂櫌

2015.8-2017.6

鏈?/span> 绉?/span>

姝︽眽澶у

鐢靛瓙淇℃伅瀛﹂櫌

2011.9-2015.6


鐮旂┒棰嗗煙                  

鏃犵嚎鍦颁笅/姘翠笅閫氫俊 瓒呮潗鏂欏ぉ绾?浼犳劅鍣ㄧ綉缁?鏃犵嚎鑳介噺浼犺緭 鍙紪绋嬭秴骞抽潰 5g/6g閫氫俊

涓昏鐮旂┒涓撻暱鏄熀浜庡彲缂栫▼瓒呮潗鏂欏寮虹殑灏勯绯荤粺璁捐銆佹按涓嬪湴涓嬩紶鎰熷櫒缃戠粶銆佷互鍙婃瀬绔潯浠朵笅鐨勬棤绾块€氫俊涓庢劅鐭ャ€?/p>


鐮旂┒鎴愭灉锛堣繎鏈燂級

[1] z. li (鏉庣珷鐓? and z. sun, 鈥淥ptimal active and reconfigurable meta-sphere design for metamaterial-enhanced magnetic induction communications,鈥?ieee transactions on antennas and propagation, vol. 70, no. 9, pp. 8148-8163, sept. 2022.

[2] zhangyu li锛堟潕绔犵厹锛? soham desai, vaishnendr d sudev, pu wang, jinsong han, zhi sun,

underwater cooperative mimo communications using hybrid acoustic and magnetic induction technique, computer networks, volume 173, 2020, 107191.

[3] y jin, y gao, y zhu, w wang, j li, s choi, zhangyu li 锛堟潕绔犵厹锛? j chauhan, ak dey, z jin,鈥淪onicasl: an acoustic-based sign language gesture recognizer using earphones,鈥? proc. acm interact. mob. wearable ubiquitous technol.5, 2, article 67. 2021

[4] zhangyu li锛堟潕绔犵厹锛? z. sun, ,鈥淓nabling magnetic beamforming in mimo wireless power transfer using reconfigurable metasurface,鈥? 2020 ieee global communications conference (globecom), taipei, taiwan.

[5] zhangyu li锛堟潕绔犵厹锛? z. sun, t. singh, and e. oware, "large range soil moisture sensing for inhomogeneous environment using magnetic induction networks", in proc. ieee globecom 2019, waikoloa, usa, december 2019.

[6] zhangyu li (鏉庣珷鐓? and z. sun, "antenna system optimization for active metamaterial-enhanced magnetic induction communications", in proc. eucap 2019, krakow, poland, march 2019.


鐮旂┒椤圭洰

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(1)缇庡浗鍥藉绉戝鍩洪噾椤圭洰(nsf), grant no. 1247909, dynamic behavior and coexistence of intelligent radio spectrum access systems, 2013/1-2015/12, 椤圭洰鍙備笌

(2)缇庡浗鍥藉绉戝鍩洪噾椤圭洰(nsf), grant no. 1652502锛孴owards metamaterial-inspired networking for wireless devices in extreme environments锛?017/8-2021/6, 椤圭洰鍙備笌  

(3)缇庡浗鍥藉绉戝鍩洪噾椤圭洰(nsf), grant no. 1907555, advancing stochastic analysis of field-scale transport parameters using hydrogeophysics, 2019/7-2021/8,椤圭洰鍙備笌

(4)浼佷笟妯悜椤圭洰, blasting control system based on wireless networks, truva inc company, 2019/02-2019/05, 椤圭洰鍙備笌

椤圭洰涓绘寔锛?/p>

(5)婀栧寳鐪佽嚜鐒剁瀛﹀熀閲戦潚骞撮」鐩?/strong>锛?022cfb905锛屽熀浜庢湁婧愭櫤鑳借秴琛ㄩ潰鐨勬棤绾胯兘閲忎紶杈撶爺绌讹紝2022/6-2024/6锛?strong>椤圭洰涓绘寔


涓昏濂栧姳涓庣о鍙?/span>

婀栧寳鐪佺數瀛愮瀛︾爺绌舵墍闈掑勾鎴樼暐鍚堜綔鏅哄簱鎴愬憳  2022骞?鏈?鑷充粖


鑱旂郴鏂瑰紡

閭锛歾hangyuli@scuec.edu.cn

鍦板潃锛氫腑鍗楁皯鏃忓ぇ瀛︾數瀛愪俊鎭伐绋嬪闄?951鍔炲叕瀹?/p>


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