約 3,955,736 件
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メニュー トップページ 構造 LED CREE XM-L U2 XM-L T6 Luminus SST-90 SST-50 明るさ別(公称値) ~500 Lumen 501~700 Lumen 1000~1300 Lumen 1301~2000 Lumen 製品一覧 UltraFire WF-501A XM-L U2 XM-L T6 WF-501B XM-L U2 XM-L T6 WF-502B XM-L U2 XM-L T6 C309 XM-L U2 XM-L T6 TrustFire XM-L U2 XM-L T6 XTAR XM-L U2 XM-L T6 YEZL XM-L U2 XM-L T6 明るさ別(公称値) ~500 lm 501~700 701~1000Lumen 充電器 XTAR Soshine Hexinyu UltraFire TrustFire リチウムイオンバッテリー AW 18650 3100mAh 18650 2900mAh 18650 2600mAh XTAR 18650 3400mAh 18650 3100mAh 18650 2600mAh KEEPPOWER 18650 3100mAh 18650 2600mAh YEZL 18650 2400mAh Soshine TrustFire 18650 3000mAh 18650 2400mAh UltraFire 18650 3000mAh 18650 2600mAh
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■1AA FENIX E11(旧) CREE XP-E High:105ルーメン(1時間50分) Low:32ルーメン(8時間20分) 97 x 19mm FENIX E11(新) CREE XP-E High:115ルーメン(1時間50分) Low:35ルーメン(8時間45分) 91 x 19mm ■2AA ■3AA ■4AA LED LENSER M14X CREE XM-L MAX:650ルーメン(1ルーメンまで15時間) NITECORE EA4 CREE XM-L U2 Turbo:860ルーメン(1時間45分) High:550ルーメン(2時間) Mid:300ルーメン(4時間30分) Low:135ルーメン(11時間) Lower:65ルーメン(22時間) SUNWAYMAN M40A CREE XM-L T6 High:約645ルーメン(約1時間30分) Mid:約200ルーメン(約6時間) Low:約35ルーメン(約35時間) SUNWAYMAN D40A CREE XM-L2 T6 Turbo:980ルーメン(3分後Hiへ) High:550ルーメン(1時間42分) Mid:220ルーメン(4時間) Low:30ルーメン(31時間) Moon:1ルーメン(480時間) FENIX LD41 CREE XM-L U2 Turbo:520ルーメン(2時間10分) High:190ルーメン(7時間30分) Mid:80ルーメン(20時間) Low:5ルーメン(160時間) JET beam SRA40 CREE XM-L2 U2 High:960ルーメン(2時間) Mid:240ルーメン(5時間) Low:20ルーメン(45時間) ■14500
https://w.atwiki.jp/openmusic/pages/206.html
CREE-VARLISTE Arguments dom longueur [generic-function] cree-varliste dom longueur [generic-function] Defines a constraint problem (csp) with a list of longueur variables ranging over he domains dom, and the constraints have to be defined in the associated patch (double click on the icon to open it). This patch is an instance of patchforvarliste. The first output give the csp (instance of the asvarliste) The second output gives the current values of the variables (random if no resolution has been made). See below the documentation of the classes as-varliste and patchforvarliste Inputs dom a list, representing the possible values for the variables longueur the number of variables Outputs the csp (instance of asvraliste) the current values of the variables as-varliste [class] Class of the csp with variables placed in a list. The slots of the class are valeurs (a list) the list of current values of the variables domaines (a list) the domain (same for all variables) erreurs (a list) the list of errors for each variable with regard to the constraints erreur-global (an integer) the error of the whole configuration with regrd to the constraints, which is the sum of all erreurs tabu the list of the variables marked as tabu (during the resolution, useless if you don t care about the detail of the resolution process) longueur (an integer) the number of variables contraintes the constraints. In case the as-varliste is defined from cree-varliste they are generated from what is defined in the associated patch. cont-glob aggregation of all the constraints for the whole configuration patchforvarliste [class] These patches are opened when double clicking on the cree-varliste boxes. They are used to define the constraints of the associated csp, which is an instance of as-varliste. We make the assumption that the constraints are always defined in the same way for all the variables. So they state on any variable (input written i), and possibly the following ones, which you can make appear by clicking on the second button in the up-right corner. The whole list of variables is reprensented by the liste icon. The constraints have to be connected to the state output. If you want to add constraints, you can either use the andc primitive to combine them or state them seperately, for this you need to add outputs by clicking on the state button in the up-right corner. There are several kinds of predefined inputs i denotes any variable i+1, i+2, i+3, etc the variables that follow i Output state connect the constraints here
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CREE-VARCYCLE Arguments dom longueur [generic-function] cree-varcycle dom longueur [generic-function] Defines a constraint problem (csp) with a list of longueur variables ranging over he domains dom, and the constraints have to be defined in the associated patch (double click on the icon to open it). This patch is an instance of patchforvarcycle. The variables are considered as a cycle, which means that the list restarts at the end. The first output give the csp (instance of the asvarcycle) The second output gives the current values of the variables (random if no resolution has been made). See below the documentation of the classes as-varcycle and patchforvarcycle Inputs dom a list, representing the possible values for the variables longueur the number of variables Outputs the csp (instance of asvracycle) the current values of the variables as-varcycle [class] Class of the csp with variables placed in a list, considered as a cycle. The slots of the class are valeurs (a list) the list of current values of the variables domaines (a list) the domain (same for all variables) erreurs (a list) the list of errors for each variable with regard to the constraints erreur-global (an integer) the error of the whole configuration with regrd to the constraints, which is the sum of all erreurs tabu the list of the variables marked as tabu (during the resolution, useless if you don t care about the detail of the resolution process) longueur (an integer) the number of variables contraintes the constraints. In case the as-varcycle is defined from cree-varcycle they are generated from what is defined in the associated patch. cont-glob aggregation of all the constraints for the whole configuration patchforvarcycle [class] These patches are opened when double clicking on the cree-varcycle boxes. They are used to define the constraints of the associated csp, which is an instance of as-varcycle. We make the assumption that the constraints are always defined in the same way for all the variables. So they state on any variable (input written i), and possibly the following ones, which you can make appear by clicking on the second button in the up-right corner. Since the variables are in a cycle, the list of variables is considered to restart at its end. The whole list of variables is represented by the liste icon. The constraints have to be connected to the state output. If you want to add constraints, you can either use the andc primitive to combine them or state them seperately, for this you need to add outputs by clicking on the state button in the up-right corner. There are several kinds of predefined inputs i denotes any variable i+1, i+2, i+3, etc the variables that follow i Output state connect the constraints here
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1AA 2AA 3AA 4AA LED LENSER M14X CREE XM-L MAX:650ルーメン(1ルーメンまで15時間) NITECORE EA4 CREE XM-L U2 TURBO:860ルーメン(1時間45分) Hi:550ルーメン(2時間) MID:300ルーメン(4時間30分) LOW:135ルーメン(11時間) LOWER:65ルーメン(22時間) SUNWAYMAN M40A CREE XM-L T6 Hi:約645ルーメン(約1時間30分) Mid:約200ルーメン(約6時間) Low:約35ルーメン(約35時間) SUNWAYMAN D40A CREE XM-L2 T6 TRUBO:980ルーメン(3分後Hiへ) Hi:550ルーメン(1時間42分) Med:220ルーメン(4時間) Low:30ルーメン(31時間) MOON:1ルーメン(480時間) FENIX LD41 CREE XM-L U2 Turbo:520ルーメン(2時間10分) Hi:190ルーメン(7時間30分) Mid:80ルーメン(20時間) Low:5ルーメン(160時間) JET beam PA40 CREE XM-L T6 Mode1:468ルーメン(2時間30分) Mode2:220ルーメン(6時間) Mode3:50ルーメン(27時間) Mode4:2ルーメン(150時間) JET beam SRA40 CREE XM-L2 U2 High:960ルーメン(2時間) Mid:240ルーメン(5時間) Low:20ルーメン(45時間) Mode1:468ルーメン(2時間30分) Mode2:220ルーメン(6時間) Mode3:50ルーメン(27時間) Mode4:2ルーメン(150時間)
https://w.atwiki.jp/openmusic/pages/208.html
CREE-VARPERM Arguments init [generic-function] cree-varperm init [generic-function] Defines a permutation constraint problem (csp) with the variables being permutations of the list given in the input and the constraints have to be defined in the associated patch (double click on the icon to open it). This patch is an instance of patchforvarperm. The domain of the csp is the set of all permutations of the variables. The first output give the csp (instance of the asvarperm) The second output gives the current values of the variables (random if no resolution has been made). See below the documentation of the classes as-varperm and patchforvarperm Inputs init the list of variables Outputs the csp (instance of asvraperm) the current values of the variables as-varperm [class] Class of the permutation csp. Note that this class has no domain slot (contrary to as-varliste and as-varcycle), it is not necessary to define a domains for the variables since we know that the domain of the csp is the set of all permutations of the variables. The slots of the class are valeurs (a list) the list of current values of the variables erreurs (a list) the list of errors for each variable with regard to the constraints erreur-global (an integer) the error of the whole configuration with regrd to the constraints, which is the sum of all erreurs tabu the list of the variables marked as tabu (during the resolution, useless if you don t care about the detail of the resolution process) longueur (an integer) the number of variables contraintes the constraints. In case the as-varperm is defined from cree-varperm they are generated from what is defined in the associated patch. cont-glob aggregation of all the constraints for the whole configuration patchforvarperm [class] These patches are opened when double clicking on the cree-varperm boxes. They are used to define the constraints of the associated csp, which is an instance of as-varperm. We make the assumption that the constraints are always defined in the same way for all the variables. So they state on any variable (input written i), and possibly the following ones, which you can make appear by clicking on the second button in the up-right corner. The whole list of variables is represented by the liste icon. The constraints have to be connected to the state output. If you want to add constraints, you can either use the andc primitive to combine them or state them seperately, for this you need to add outputs by clicking on the state button in the up-right corner. There are several kinds of predefined inputs i denotes any variable i+1, i+2, i+3, etc the variables that follow i Output state connect the constraints here
https://w.atwiki.jp/satoschi/pages/1379.html
ムース・クリー語 |North American Indian languages|Algic languages| 言語類型 現用言語 使用文字 クリー文字? type living language writing system Cree syllabics ISO 639-3 【crm】 言語名別称 alternate names West Main Cree West Shore Cree York Cree 方言名 dialect names 参考文献 references WEB ISO 639-3 Registration Authority - SIL International the LINGUIST List Ethnologue Wikipedia
https://w.atwiki.jp/satoschi/pages/1380.html
湿原クリー語 |North American Indian languages|Algic languages| 言語類型 現用言語 使用文字 クリー文字? type living language writing system Cree syllabics ISO 639-3 【csw】 言語名別称 alternate names West Main Cree West Shore Cree York Cree 方言名 dialect names Eastern Swampy Cree 東部湿原クリー方言 Western Swampy Cree 西部湿原クリー方言 参考文献 references WEB ISO 639-3 Registration Authority - SIL International the LINGUIST List Ethnologue Wikipedia
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平原クリー語 |North American Indian languages|Algic languages| 言語類型 現用言語 使用文字 ラテン文字【Latn?】クリー文字? type living language writing system Latin alphabetCree syllabics ISO 639-3 【crk】 言語名別称 alternate names Western Cree 西部クリー語 方言名 dialect names Northern Alberta Cree 北部アルバータ・クリー方言 Plains Cree 平原クリー方言 Western York Cree 西部ヨーク・クリー方言 参考文献 references WEB ISO 639-3 Registration Authority - SIL International the LINGUIST List Ethnologue Wikipedia
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■1 x 18650 Xtar B20 Pilot CREE XM-L U3 Turbo 1000ルーメン(3時間6分,約10分後Hiへ) High 600ルーメン(3時間18分) Mid 250ルーメン(7時間30分) Low 30ルーメン(70時間) Signal 250ルーメン(-) 140.0 x 34.5mm Xtar TZ20 U2 CREE XM-L U2 High 820ルーメン(1時間18分) Mid 320ルーメン(3時間18分) Low 18ルーメン(180時間) Strobo 820ルーメン(-) SOS 820ルーメン(-) 140.5 x 35.0mm ZebraLight SC600 Mk II L2 CREE XM-L2 Cool White Mode1 High 1100ルーメン(2時間) Mid 70ルーメン(30時間) Low 3.8ルーメン(16日) Beacon Strobe Mode 0.2Hz Beacon at Low / 0.2Hz Beacon at H1 / 4Hz Strobe at H1 / 19Hz Strobe at H1 Mode2 High 670ルーメン(2時間30分),356ルーメン(3時間54分),162ルーメン(11時間) Mid 32ルーメン(66時間),12ルーメン(172時間) Low 0.43ルーメン(2.5ヶ月),0.06ルーメン(4.6ヶ月),0.01ルーメン(5.5ヶ月) Beacon Strobe Mode 0.2Hz Beacon at Low / 0.2Hz Beacon at H1 / 4Hz Strobe at H1 / 19Hz Strobe at H1 101.6 x 30.0mm ZebraLight SC600w Mk II L2 CREE XM-L2 Neutral White Mode1 High 1020ルーメン(2時間) Mid 65ルーメン(30時間) Low 3.5ルーメン(16日) Beacon Strobe Mode 0.2Hz Beacon at Low / 0.2Hz Beacon at H1 / 4Hz Strobe at H1 / 19Hz Strobe at H1 Mode2 High 620ルーメン(2時間30分),330ルーメン(3時間54分),150ルーメン(11時間) Mid 30ルーメン(66時間),11ルーメン(172時間) Low 0.4ルーメン(2.5ヶ月),0.06ルーメン(4.6ヶ月),0.01ルーメン(5.5ヶ月) Beacon Strobe Mode 0.2Hz Beacon at Low / 0.2Hz Beacon at H1 / 4Hz Strobe at H1 / 19Hz Strobe at H1 101.6 x 30.0mm