百家乐官网三路秘诀,吉祥彩娱乐城,博彩网站注册送彩金 (中国)·官方网站

妞嶇墿琛ㄥ瀷鎴愬儚鍒嗘瀽绯荤当锛�妞嶇墿鑷嫊鍌抽€佺増锛�

鐢㈠搧瑭崇窗浠嬬垂 PlantScreen妞嶇墿琛ㄥ瀷鎴愬儚鍒嗘瀽绯荤当锛堟鐗╄嚜鍕曞偝閫佺増锛� PlantScreen妞嶇墿琛ㄥ瀷鎴愬儚绯荤当鐢辨嵎鍏婸SI鍏徃鐮斿埗鐢熺敘锛屾暣鍚堜簡LED妞嶇墿鏅鸿兘鍩归銆佽嚜鍕曞寲鎺у埗绯荤当銆佽憠缍犵礌鐔掑厜鎴愬儚娓噺鍒嗘瀽銆佹鐗╃啽鎴愬儚鍒嗘瀽銆佹鐗╄繎绱呭鎴愬儚鍒嗘瀽銆佹鐗╅珮鍏夎瓬鍒嗘瀽銆佽嚜鍕曟纰艰瓨鍒ョ鐞嗐€丷GB鐪熷僵3D鎴愬儚銆佽嚜鍕曠ū閲嶈垏婢嗙亴绯荤当绛夊闋呭厛閫叉妧琛擄紝浠ユ渶鍎寲鐨勬柟寮忓鐝惧ぇ閲忔鐗╂ǎ鍝佲€斺€斿緸鎿崡鑺ャ€佺帀绫冲埌鍚勭ó鍏跺畠妞嶇墿鐨勫叏鏂逛綅鐢熺悊鐢熸厠鑸囧舰鎱嬬祼妲嬫垚鍍忓垎鏋愶紝鐢ㄤ簬楂橀€氶噺妞嶇墿琛ㄥ瀷鎴愬儚鍒嗘瀽娓噺銆佹鐗╄剠杩熆鎳夋垚鍍忓垎鏋愭脯閲忋€佹鐗╃敓闀峰垎鏋愭脯閲忋€佺敓鎱嬫瘨鐞嗗鐮旂┒銆佹€х媭璀樺垾鍙婃鐗╃敓鐞嗙敓鎱嬪垎鏋愮爺绌剁瓑銆備綔鐐哄叏鐞冪涓€瀹剁爺鍒剁敓鐢㈡鐗╄憠缍犵礌鐔掑厜鎴愬儚绯荤当鐨勫粻瀹讹紝PSI鍏徃鍦ㄦ鐗╄〃鍨嬫垚鍍忓垎鏋愰牁鍩熻檿浜庡叏鐞冪殑鎶€琛撳墠鍒楋紝澶ч潰绌嶈憠缍犵礌鐔掑厜鎴愬儚鍒嗘瀽鍔熻兘浣縋lantScreen鎴愮偤妞嶇墿琛ㄥ瀷鍒嗘瀽鑸囧姛鑳芥垚鍍忓垎鏋愮殑鏈€鐐哄厛閫茬殑鍎€鍣ㄨō鍌欙紝浣挎鐗╃敓闀枫€佽剠杩熆鎳夌瓑娓噺鍙冩暩閬�100澶氬€嬨€� 宸﹀湒鐐烘暣濂桺lantScreen绯荤当锛屼腑鍦栫偤鎴愬儚瀹わ紝鍙冲湒鐐烘垚鍍忓涓殑鐜夌背 PlantScreen绯荤当鍖呮嫭濡備笅鎴愬儚鍒嗘瀽鍔熻兘锛� 1. 钁夌稜绱犵啋鍏夋垚鍍忓垎鏋愶細鍠箙鎴愬儚闈㈢⿳35x35cm锛屾垚鍍忔脯閲忓弮鏁稿寘鎷現o, Fm, Fv, Fo鈥�, Fm鈥�, Fv鈥�, Ft, Fv/Fm, Fv鈥�/Fm鈥�, Phi_PSII, NPQ, qN, qP, Rfd绛夊咕鍗佸€嬭憠缍犵礌鐔掑厜鍙冩暩 2. RGB鎴愬儚鍒嗘瀽锛氭垚鍍忔脯閲忓弮鏁稿寘鎷細 1) 钁夐潰绌嶏紙Leaf Area: Useful for monitoring growth rate锛� 2) 妞嶇墿绶婂搴︼紡绶婂瘑搴︼紙Solidity/Compactness. Ratio between the area covered by the plant鈥檚 convex hull and the area covered by the actual plant锛� 3) 钁夌墖鍛ㄩ暦锛圠eaf Perimeter: Particularly useful for the basic leaf shape and width evaluation (combined with leaf area)锛� 4) 鍋忓績鐜囷紙Eccentricity: Plant shape estimation, scalar number, eccentricity of the ellipse with same second moments as the plant (0...circle, 1...line segment)锛� 5) 钁夊湏搴︼紙Roundness: Based on evaluating the ratio between leaf area and perimeter. Gives information about leaf roundness锛� 6) 钁夊鎸囨暩锛圡edium Leaf Width Index: Leaf area proportional to the plant skeleton (i.e. reduction of the leaf to line segment)锛� 7) 钁夌墖绱伴暦搴OL (Slenderness of Leaves) 8) 妞嶇墿鍦撶洿寰戯紙Circle Diameter. Diameter of a circle with the same area as the plant锛� 9) 鍑稿寘闈㈢⿳锛圕onvex Hull Area. Useful for compactness evaluation锛� 10) 妞嶇墿璩績锛圕entroid. Center of the plant mass position (particularly useful for the eccentricity evaluation)锛� 11) 绡€闁撹窛锛圛nternodal Distances锛� 12) 鐢熼暦楂樺害锛圙rowth Height锛� 13) 妞嶇墿涓夌董鏈€澶ч珮搴﹀拰瀵害锛圡aximum Height and Width of Plant in 3 Dimensions锛� 14) 鐩稿皪鐢熼暦閫熺巼锛圧elative growth rate锛� 15) 钁夊偩瑙掞紙Leaf Angle锛� 16) 绡€钁夌墖鏁搁噺锛圠eaf Number at Nodes锛� 17) 鍏跺畠鍙冩暩濡傜敤浜庢鐗╅仼鍚堝害浼扮畻鐨勯鑹插畾閲忓垎绱氥€佺稜搴︽寚鏁革紙Other parameters such as color segmentation for plant fitness evaluation, greening index and others锛� 3. 楂樺厜璀滄垚鍍忓垎鏋愶紙閬搁厤锛夛紝鍙垚鍍忓苟鍒嗘瀽濡備笅鍙冩暩锛� 1) 姝镐竴鍖栨寚鏁革紙Normalized Difference Vegetation Index (NDVI)锛� 2) 绨″柈姣斿€兼寚鏁革紙Simple Ratio Index, Equation: SR = RNIR / RRED锛� 3) 鏀归€茬殑钁夌稜绱犲惛鏀跺弽灏勬寚鏁革紙Modified Chlorophyll Absorption in Reflectance Index (MCARI1), ?Equation: MCARI1 = 1.2 * [2.5 * (R790- R670) - 1.3 * (R790- R550)]锛� 4) 鏈€鍎寲鍦熷￥瑾挎暣妞嶈鎸囨暩锛圤ptimized Soil-Adjusted Vegetation Index (OSAVI)?, Equation: OSAVI = (1 + 0.16) * (R790- R670) / (R790- R670 + 0.16)锛� 5) 缍犲害鎸囨暩锛圙reenness Index (G), Equation: G = R554 / R677锛� 6) 鏀归€茬殑钁夌稜绱犲惛鏀跺弽灏勬寚鏁革紙Modified Chlorophyll Absorption in Reflectance Index (MCARI), ?Equation: MCARI = [(R700- R670) - 0.2 * (R700- R550)] * (R700/ R670)锛� 7) 杞夋彌椤炶儭缇呭崪绱犳寚鏁革紙Transformed CAR Index (TCARI)?, Equation: TSARI = 3 * [(R700- R670) - 0.2 * (R700- R550) * (R700/ R670)]锛� 8) 涓夎妞嶈鎸囨暩锛圱riangular Vegetation Index (TVI)?, ?Equation: TVI = 0.5 * [120 * (R750- R550) - 200 * (R670- R550)]锛� 9) ZMI鎸囨暩锛圸arco-Tejada & Miller Index (ZMI), Equation: ZMI = R750 / R710锛� 10) 绨″柈姣斿€艰壊绱犳寚鏁革紙Simple Ratio Pigment Index (SRPI), Equation: SRPI = R430 / R680锛� 11) 姝镐竴鍖栬劔閹備綔鐢ㄦ寚鏁革紙Normalized Phaeophytinization Index (NPQI), Equation: NPQI = (R415- R435) / (R415+ R435)锛� 12) 鍏夊寲瀛告琚弽灏勬寚鏁革紙Photochemical Reflectance Index (PRI), Equation: PRI = (R531- R570) / (R531+ R570)锛� 13) 姝镐竴鍖栬憠缍犵礌鎸囨暩锛圢ormalized Pigment Chlorophyll Index (NPCI), NPCI = (R680- R430) / (R680+ R430)锛� 14) Carter鎸囨暩锛圕arter Indices?, Equation: Ctr1 = R695 / R420; Ctr2 = R695 / R760锛� 15) Lichtenthaler鎸囨暩锛圠ichtenthaler Indices?, Equation: Lic1 = (R790 - R680) / (R790 + R680); Lic2 = R440 / R690锛� 16) SIPI鎸囨暩锛圫tructure Intensive Pigment Index (SIPI), Equation: SIPI = (R790- R450) / (R790+ R650)锛� 17) Gitelson锛峂erzlyak鎸囨暩锛圙itelson and Merzlyak Indices?, ?Equation: GM1 = R750/ R550; GM2 = R750/ R700锛� 4. 鐔辨垚鍍忓垎鏋愶紙閬搁厤锛夛細鐢ㄤ簬鎴愬儚鍒嗘瀽妞嶇墿鍦ㄥ厜杓诲皠鎯呮硜涓嬬殑浜岀董鐧肩啽鍒嗗竷锛岃壇濂界殑鏁ｇ啽鍙互浣挎鐗╄€愬彈杓冮暦鏅傞枔鐨勯珮鍏夎蓟灏勬垨浣庢按姊濅欢锛堝共鏃憋級 5. 杩戠磪澶栨垚鍍忓垎鏋愶紙閬搁厤锛夛細鐢ㄤ簬瑙€娓垎鏋愭鐗╃殑姘村垎鐙€鎱嬪強鍏跺湪涓嶅悓绲勭箶闁撶殑鍒嗗竷璁婄暟锛岃檿浜庤壇濂芥締鐏岀媭鎱嬬殑妞嶇墿琛ㄧ従鍑哄皪杩戠磪澶栧厜璀滅殑楂樺惛鏀舵€э紝鑰岃檿浜庡共鏃辩媭鎱嬬殑妞嶇墿鍓囪〃鐝惧嚭灏嶈繎绱呭鍏夎瓬鐨勯珮鍙嶅皠鎬э紝閫氶亷鍒嗘瀽杌熶欢鍙互鐩ｆ脯鍒嗘瀽寰炲共鏃辫剠杩埌鍐嶆締鐏岄亷绋嬩腑鐨勬暣鍊嬮亷绋嬪嫊鎱嬪強妞嶇墿灏嶅共鏃辫剠杩殑闊挎噳鍜屾按鍒嗗埄鐢ㄦ晥鐜囷紝骞跺舰鎴愬亣褰╁湒鍍忥紝鍙互鑸囨鐗╃殑褰㈡厠鎸囨暩鍙婅憠缍犵礌鐔掑厜鎸囨暩閫茶鐩搁棞鍒嗘瀽鐮旂┒銆� 绯荤当閰嶇疆鑸囧伐浣滃師鐞嗭細鏁村绯荤当鐢辫嚜鍕曞寲妞嶇墿鍌抽€佺郴绲便€佸厜閬╂噳瀹ゃ€丷GB鎴愬儚銆丗luorCam钁夌稜绱犵啋鍏夋垚鍍忋€侀珮鍏夎瓬鎴愬儚銆佹鐗╃啽鎴愬儚銆佹鐗╄繎绱呭鎴愬儚銆佽嚜鍕曟締鐏屾柦鑲ヨ垏绋遍噸绯荤当銆佹鐗╂璀樼郴绲辩瓑绲勬垚锛屽厜閬╂噳瀹ゅ収鐨勬鐗╁彲鐢卞偝閫佸付鍌抽€佸埌鎴愬儚瀹ら€茶鎴愬儚鍒嗘瀽绛夈€� 鎶€琛撴寚妯欙細 1. 鑷嫊瑁濊級鑸囧嵏杓夋鐗╂ǎ鍝侊紝閫氶亷姊濆舰纰兼垨RFID妯欑敖璀樺垾璺熻工妯ｅ搧 2. 鍏夐仼鎳夊锛氱敤浜庡厜鐓ч仼鎳夋垨妞嶇墿鍩归锛孡ED鍏夋簮鍏夌収寮峰害閬�1000渭mol/m2.s锛岀劇鐔辨晥鎳夛紝寮峰害0锛�100%鍙锛屽彲閫氶亷瀵﹂绋嬪簭闋愯ō鍏夌収鍛ㄦ湡璁婂寲锛屽彲閬搁厤閫氱敤鍨嬫垨灏堢敤鍨嬪姘寸ɑ鐢熼暦瑙€娓绛夛紝閭勫彲閬搁厤涓夌董鎺冪瀯鎴愬儚鍒嗘瀽鍔熻兘锛堝寘鎷琗YZ涓夌董鎺冪瀯鎴愬儚绯荤当鍜岃粺浠讹級 3. 妯欓厤鎵樼洡鏋�30x30cm锛岀敤浜庡畨鏀剧泦鏍芥鐗╂垨鍙互鐩涙斁澶氬€嬪皬鑺辩泦鐨勬墭鐩� 4. 鑷嫊鍌抽€佺郴绲辩敱鍏夐仼鎳夊鍒版垚鍍忓褰㈡垚涓€鍊嬬挵褰㈠偝閫侀€氶亾锛屽偝閫佸付閲囩敤鍏疯畩閫熷櫒鐨勪笁鐩哥暟姝ラΜ閬旓紝200-1000W锛屽偝閫佸付瀵�320mm锛岃矤杓夊姏130kg锛岄€熷害9m/min 5. 绉诲嫊鎺у埗绯荤当涓ぎ铏曠悊鍠厓锛欳J2M-CPU33锛涙暩瀛桰/O锛氭渶澶�2560榛烇紱PLC閫氳▕锛氶€氶亷浠ュお缍�100Mb/s楂樼PC锛汷MRON MECHATROLINK-II 鏈€澶�16杌哥簿纰哄畾浣� 6. 妞嶇墿鎴愬儚娓噺瀹わ細150cm(闀�)x150cm(瀵�)x220cm(楂�)锛岃垏鐠板鍏夐殧闆紙light-isolated锛夛紝蹇€熻嚜鍕曢枊鍟熼棞闁夐杸锛岄枊鍟熼棞闁夊懆鏈熷皬浜�3绉掞紝鍌抽€佸付鍏ュ彛鍏峰厜骞曞偝鎰熺郴绲便€佹纰艰瓨鍒ュ櫒鍜孯FID璁€鍙栧櫒 7. RFID璁€鍙栧櫒杈ㄨ瓨璺濋洟锛�2-20cm锛涢€氳▕锛歊S485锛涙纰艰瓨鍒ュ櫒鍙畝鍙�1缍€�2缍拰QR纰硷紝鍏稬ED鍏夋簮渚夸簬寮卞厜涓嬭鲸璀橈紝RS485閫氳▕ 8. F3EM2鍏夊箷绯荤当锛岀簿纰烘脯閲忔鐗╅珮搴﹀拰瀵害浠ヤ究閫插叆鎴愬儚娓噺瀹ゅ悗鏀濆儚闋嚜鍕曠簿纰哄畾浣嶏紝娓噺鑼冨湇150cm锛屽垎杈ㄧ巼5mm 9. 钁夌稜绱犵啋鍏夋垚鍍忥細鍖呮嫭鍏夐殧闆㈡垚鍍忓銆佽嚜鍕曢枊鍟熻垏闂滈枆闁€銆佸偝閫佸付銆丳LC鎺у埗鑷嫊涓婁笅绉诲嫊鑱氱劍绯荤当銆�4鍊婰ED鍏夋簮鏉裤€�8浣嶇稜娉㈣吉绛夛紝鍠箙鎴愬儚闈㈢⿳35x35cm锛屾脯閲忓厜姗欒壊620nm锛屾鑹插拰鐧借壊闆欐尝闀峰厜鍖栧鍏夛紝椋藉拰鍏夐杻鐐虹櫧鑹叉垨钘嶈壊 10. 鑷嫊鐏屾簤鑸囩ū閲嶏紝鍙悓鏅傚皪5鍊嬫鐗╃ó妞嶇泦閫茶婢嗙亴鍜岀ū閲嶏紝绮剧⒑搴β�1g锛涚ū閲嶅悗绮剧⒑婢嗙亴锛屽彲閫氶亷瀵﹂绋嬪簭锛坧rotocol锛夐爯瑷締鐏岄亷绋嬶紙regime锛夋垨骞叉棻鑴呰揩鐙€鎱嬶紝閭勫彲閬搁厤鐕熼渚涚郸绯荤当闅ㄦ締鐏屽畾閲忎緵绲︽鐗╃嚐椁婏紙濡傛爱鑲ョ瓑锛夛紱绋遍噸鍓嶈嚜鍕曢浂鏍℃簴锛岄倓鍙€氶亷宸茬煡閲嶉噺锛堝鐮濈⒓锛夌墿鍝佽嚜鍕曢€茶鍐嶆牎婧栵紱闃茶绱氬垾锛欼P66 11. 绋遍噸绯荤当鐢�4鍊嬬ū閲嶅柈鍏冪祫鎴愶紝瀹夊叏鎵胯級闄愶細150% Ln锛涙韩搴﹁鍎燂細-10锛�40掳C锛屾閰嶆脯閲忚寖鍦�7kg锛屽彲閬搁厤10kg銆�15kg鎴�20kg 12. RGB鎴愬儚锛氶爞閮ㄥ拰鍋撮潰涓夌董鎴愬儚锛�3鍊嬫敐鍍忛牠锛夛紝姣忓€嬫敐鍍忛牠鍚勮嚜鎿佹湁鐛ㄧ珛鐨勬帶鍒堕潰鐩や互瑷疆鏇濆厜鏅傞枔銆佸鐩娿€佺櫧骞宠　绛夛紝閫氶亷鎺у埗闈㈢洡鐨勫揩鐓ч嵉鍙嵆鏅傛媿鐓у苟椤ず鍒嗚鲸鐜囩瓑淇℃伅锛岄倓鍙€氶亷鑷嫊妯″紡鑷嫊鎴愬儚骞跺瓨鍎茶嚦鏁告摎搴紝姣忔鎺冪瀯鎴愬儚鏅傞枔灏忎簬10绉� 13. RGB鎴愬儚绯荤当鍖呮嫭鎴愬儚瀹わ紙鍏夐殧闆級銆佸偝閫佸付鍙婁綅缃偝鎰熷櫒銆�3鍊嬫敐鍍忛牠銆佸厜婧愬強鎴愬儚鍒嗘瀽杌熶欢锛屾閰嶆垚鍍忚寖鍦�150cm(闀�)x150cm(瀵�)x150cm(楂�)锛孡ED鍐风櫧鍏夋簮锛堜笉灏嶆鐗╃敘鐢熺啽鏁堟噳锛� 14. 妯欓厤USB浠ュお缍叉敐鍍忛牠锛屾湁鏁堝儚绱�4008x2672锛屽儚绱犲ぇ灏�9.0渭m锛屾瘮鐗瑰垎杈ㄧ巼12姣旂壒锛屽厜閲忓瓙鏁堢巼锛氳棈鍏夊嘲鍊�465nm锛岀稜鑹插嘲鍊�540nm锛岀磪鑹插嘲鍊�610nm锛�28mm鍏夊閺￠牠锛屽彛寰�43.2mm锛屽厜鍦堣寖鍦�2.8锛岶16 15. NIR杩戠磪澶栨垚鍍忓柈鍏冿細鍙垚鍍忛噰闆�1450锛�1600nm姘村惛鏀舵尝娈碉紝浠ュ弽鏄犳鐗╂按鍒嗙媭娉侊紝鍦ㄤ緵姘村厖娌涙儏娉佷笅琛ㄧ従鍑洪珮NIR鍚告敹鍊硷紝骞叉棻鑴呰揩鎯呮硜涓嬪墖琛ㄧ従鍑洪珮NIR鍙嶅皠锛孨IR鍋囧僵鑹叉垚鍍忓彲浠ラ€氶亷杌熶欢鍙嶆槧鍜屽垎鏋愭鐗╂按鍒嗙媭娉� 16. 楂樺厜璀滄垚鍍忓柈鍏冨寘鎷厜闅旈洟鎴愬儚娓噺瀹ゃ€佽嚜鍕曢枊鍟熼棞闁夐杸銆佸偝閫佸付銆丳LC鎺у埗鑷嫊绉诲嫊鑱氱劍閺￠牠鍖呮嫭SWIR鍜孷NIR閺￠牠銆佸厜婧愩€佹垚鍍忓垎鏋愮郴绲辩瓑锛孷NIR閺￠牠娉㈡380nm锛�1000nm锛屽厜鍦團/0.2锛岀斧闅欏搴�25渭m锛岀斧闅欓暦搴�18mm锛屽箑閫�12锛�236 fps锛汼WIR閺￠牠娉㈡900锛�2500nm锛屽厜鍦團/0.2锛岀斧闅欏搴�25渭m锛岀斧闅欓暦搴�18mm锛屽箑閫�60鎴�100 fps锛岃閲�150x100cm 17. 鐢ㄦ埗鍙€氶亷瀵﹂绋嬪簭閬告搰SWIR鎴愬儚銆乂NIR鎴愬儚鎴栧叐鍊嬮彙闋叏娉㈡鎴愬儚锛屾瘡鍊嬮彙闋垚鍍忔檪闁撳垎鍒ョ偤15绉� 18. 鐔辨垚鍍忓柈鍏冿細鍒嗚鲸鐜�640x480鍍忕礌锛屾韩搴﹁寖鍦�20锛�120掳C锛岄潏鏁忓害NETD<0.05掳C@30掳C/50mK锛屾垚鍍忛潰绌嶅彲閬�150x150cm 19. 鍙伕閰嶄汉宸ユ埃鍊欏锛屾鐗╃敓闀烽潰绌�9.5m2锛岀敓闀烽珮搴�2.0m锛屾韩搴︾┅瀹氭€�1掳C锛�430nm锛�730nm鐧借壊鍜孖R LED 鍏夋簮锛�1000渭mol/m2/s锛堣窛闆㈡鐗�100cm楂樺害鐨勫厜寮凤級,鍙爯瑷嚜鍕曞厜鐓у懆鏈熷嫊鎱嬶紝 20. 绯荤当鎺у埗鑸囨暩鎿氶噰闆嗗垎鏋愮郴绲憋細 ? 鐢ㄦ埗鍙嬪ソ鐨勫湒褰㈢晫闈� ? 鐢ㄦ埗瀹氱京銆佸彲绶ㄨ集鑷嫊娓噺绋嬪簭锛坧rotocols锛� ? MySQL鏁告摎搴鐞嗙郴绲憋紝鍙互铏曠悊鎿佹湁涓婂崈钀瑷橀寗鐨勫ぇ鍨嬫暩鎿氬韩锛屾敮鎸佸绋瓨鍎插紩鎿庯紝鐩搁棞鏁告摎鑷嫊瀛樺劜浜庢暩鎿氬韩涓殑涓嶅悓琛ㄤ腑 ? 妞嶇墿绶ㄧ⒓娉ㄥ唺鍔熻兘锛氬寘鎷鐗╄瓨鍒ョ⒓銆佹墍鍦ㄦ墭鐩ょ殑璀樺垾纰肩瓑瀛樺劜鍦ㄦ暩鎿氬韩涓紝娓噺鏅傝嚜鍕曟彁鍙栬嚜鍕曡畝鍙栨褰㈢⒓鎴朢FID妯欑敖 ? 瑙告懜灞忔搷浣滅晫闈紝鍦ㄧ窔椤ず妞嶇墿鎵樼洡鏁搁噺銆佸厜绶氬挤搴︺€佸垎鏋愭脯閲忕媭鎱嬪強绲愭灉绛夛紝杓曟澗閫氶亷杌熶欢瀹屽叏鎺у埗鎵€鏈夌殑姗熸閮ㄤ欢鍜屾垚鍍忓伐浣滅珯 ? 鍙敤榛樿獚绋嬪簭閫茶鎵€鏈夋脯閲忥紝涔熷彲閫氶亷闁嬬櫦宸ュ叿鍓靛缓鑷畾缇╃殑宸ヤ綔閬庣▼锛屾垨鑰呮墜鍕曟搷浣淟ED鍏夋簮闁嬪暉鎴栭棞闁夈€丷GB鎺冮潰鎴愬儚銆佽憠缍犵礌鐔掑厜鎴愬儚銆佺ū閲嶅強婢嗙亴绛� ? 瀵﹂绋嬪簭锛圥rotocols锛夊叿鍌欒捣濮嬮嵉銆佺祩姝㈤嵉銆佹毇鍋滈嵉 ? 鍙牴鎿氬椹楅渶姹傝嚜鍕曟帶鍒舵鐗╂ǎ鍝佺殑绉诲嫊鍜屽柈涓€鎴愬儚绔欑殑婵€娲� ? 鍙彁渚�3鍊嬬浉姗熻瑙掔殑RGB鏁稿瓧鐢熼暦鍒嗘瀽锛屽寘鍚柧鍊煎垎鏋愬拰椤忚壊鍒嗘瀽 ? 灏嶄簬钁夌稜绱犵啋鍏夋垚鍍忓湒鐗囷紝杌熶欢鍙壒閲忛€茶娣粎鍙冩暩鍒嗘瀽锛屽寘鍚簡鍦ㄨ儗鏅幓闄ゅ湒鍍忎笂鐢ㄦ埗鎰熻垐瓒ｅ崁鍩熷拰鍍忕礌鍊肩殑骞冲潎銆傚垎鏋愭暩鎿氫互鍘熷鍦栧儚鍜屽垎鏋愭暩鎿氱殑褰㈠紡瀛樺劜鍦ㄦ暩鎿氬韩涓€� ? 灏岶IR鐔辨垚鍍忓湒锛�16浣嶅湒鍙洿鎺ュ皫鍑哄埌MATLAB鎴栭€氶亷杌熶欢鐢熸垚婧害鍒嗗竷鐨勫亣褰╁湒鍍忋€� 閮ㄥ垎鐢ㄦ埗锛� 1. 鍦嬮殯姘寸ɑ鐮旂┒鎵€锛堣彶寰嬭硴锛塗he International Rice Research Institute, Los Banos Philippines 2. 婢冲ぇ鍒╀簽鑱偊绉戝鑸囧伐妤爺绌剁祫绻旀鐗╄〃鍨嬬祫瀛镐腑蹇僒he CSIRO Plant Phenomics Center, Canberra, Australia 3. 婢冲ぇ鍒╀簽鍦嬬珛澶уThe Australian National University, Canberra. Australia 4. 瀛熷北閮藉叕鍙革紙缇庡湅锛塎onsanto Corporation, St. Louis, USA. 5. 鏉滈偊鍏堥嫆鍦嬮殯鑹ó鍏徃Pioneer-Dupont, Des Moines, Iowa 6. 宸存柉澶叕鍙窶etanomics锛堟煆鏋楋級Metanomics (BASF), Berlin, GDR 7. 宸存柉澶叕鍙窩ropDesign锛堟瘮鍒╂檪锛塁ropDesign (BASF), Nevele, Belgium 8. 缇庡湅鍚堟垚鍩哄洜鍏徃Synthetic Genomics, La Jolla, USA 9. Palacky 澶уPalacky University Olomouc, Czech Republic 10. Masaryk 澶уMasaryk University Brno, Czech Republic 鐢㈠湴锛氭瓙娲�

鍖椾含鏄撶娉扮敓鎱嬫妧琛撴湁闄愬叕鍙� 2021-08-23

钁′含濞变箰鍦�-瀵岀泩濞变箰鍦哄紑鎴�