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Sigma KEE - documentation
documentation

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(documentation documentation ChineseLanguage "在话语领域和自然语言的字符串,以某种 HumanLanguage 来陈述的物件之间一种关系。 documentation 领域不是常量 (名字),而是物体的本身。 也就是说在相关文档提到该物体时,是不会引用名字的。") Merge.kif 539-541
(documentation documentation EnglishLanguage "A relation between objects in the domain of discourse and strings of natural language text stated in a particular HumanLanguage. The domain of documentation is not constants (names), but the objects themselves. This means that one does not quote the names when associating them with their documentation.") Merge.kif 533-537
(documentation documentation JapaneseLanguage "議論ドメインと特定の HumanLanguage で 述べられている自然言語テキストの文字列のオブジェクト間の関係。 documentation のドメインは定数 (名前)だが、オブジェクト自体ではない。これは、ドキュメントに関連付けるときに名前を引用しない、 という意味である。") Merge.kif 543-546
(documentation documentation SpanishLanguage "Una relación entre objetos en el dominio de discurso y las cadenas de lenguaje natural dichas en un HumanLanguage particular. El dominio de documentation no es de las constantes (nombres), sino los mismos objetos. Eso quiere decir que no se cita los nombres cuando se asocian con la documentación.") Merge.kif 548-552
(domain documentation 1 Entity) Merge.kif 529-529
(domain documentation 2 HumanLanguage) Merge.kif 530-530
(domain documentation 3 SymbolicString) Merge.kif 531-531
(instance documentation TernaryPredicate) Merge.kif 528-528

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(format ChineseLanguage documentation "%n 是 %3") chinese_format.kif 97-97
(format EnglishLanguage documentation "%n %3") english_format.kif 119-119
(format JapaneseLanguage documentation "%3 では %n") english_format.kif 120-120
(termFormat ChineseLanguage documentation "文件") domainEnglishFormat.kif 19987-19987
(termFormat ChineseLanguage documentation "文档") chinese_format.kif 98-98
(termFormat ChineseTraditionalLanguage documentation "文件") domainEnglishFormat.kif 19986-19986
(termFormat EnglishLanguage documentation "documentation") domainEnglishFormat.kif 19985-19985

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(documentation 2GNetwork ChineseLanguage "2G (or 2-G) 是电二代行动通信技术的简称。 2G 通信网是在1991年由Radiolinja 在芬兰基于GSM 标准而商业般的创立(目前是 Elisa Oyj 一部分). 以通用封包无线服务(GPRS ), 2G 提供个理论上传输速率最高达 1 Mbit/ s (实际上500 kbit/ s)。 最一般的2G技术是建立于时分多址(TDMA)的 GSM, 最初从欧洲发起但被大部分北美以外的世界地区采用. 超过 60 GSM 营运商也将于2010年时使用在 450 MHz 频道(CDMA 450)。 (资料来自英语维基百科)") ComputingBrands.kif 1112-1116
(documentation 2GNetwork ChineseTraditionalLanguage " 2G (or 2-G) 是電二代行動通信技術的簡稱。 2G 通信網是在1991年由 Radiolinja 在芬蘭 基於GSM 標準而商業般的創立 (目前是 Elisa Oyj 一部分)。 以通用封包無線服務 (GPRS), 2G 提供個理論上傳輸速率最高達 1 Mbit/ s (實際上 500 kbit/ s)。 最一般的2G技術是建立於時分多址(TDMA)的 GSM, 最初從歐洲發起但被大部分北美以外的世界地區採用. 超過 60 GSM 營運商也將於2010年時使用在 450 MHz 頻道 (CDMA 450)。 (資料轉載由維基百科)") ComputingBrands.kif 1106-1110
(documentation 2GNetwork EnglishLanguage "2G (or 2-G) is short for second-generation cellular technology. 2G cellular networks were commercially launched on the GSM standard in Finland by Radiolinja (now part of Elisa Oyj) in 1991. With General Packet Radio Service (GPRS), 2G offers a theoretical maximum transfer speed of 50 kbit/ s (40 kbit/ s in practice). With EDGE (Enhanced Data Rates for GSM Evolution), there is a theoretical maximum transfer speed of 1 Mbit/ s (500 kbit/ s in practice). The most common 2G technology was the time division multiple access (TDMA)-based GSM, originally from Europe but used in most of the world outside North America. Over 60 GSM operators were also using CDMA2000 in the 450 MHz frequency band (CDMA450) by 2010. (from Wikipedia)") ComputingBrands.kif 1095-1104
(documentation 2GNetwork JapaneseLanguage "第2世代移動通信システム(だいにせだいいどうつうしん システム)は、1993年に、第1世代移動通信システムの次に登場したデジタル方式の移動通信システムのこと。 一般的に英語の「2nd Generation」から、「2G(にジー、ツージー)」などとも略される。デジタル方式の 採用により、本システムを採用した携帯電話(PHS含む)は、電子メールやウェブ対応など高機能化した。 (cf. 携帯機器(ウィキペディア参照)") ComputingBrands.kif 1118-1122
(documentation 3GNetwork ChineseLanguage "3G, 第三代的简称, 是只第三代行动通讯技术。 它是2G和2.5G GPRS 网路的升级版, 对于更高速的网路速度。 这是建立于一套标准使用在行动装置和行动通讯使用尊崇由国际通讯联盟所订之国际行动通讯(IMT-2000)规格的服务跟网路。 3G 应用在无线语音通信, 行动网路存取, 定点无线网路存取, 视讯通话及行动电视。 3G 无线网路支援以0.2 Mbit/ s速率传递讯息的服务。(资料转载由维基百科)") ComputingBrands.kif 1157-1160
(documentation 3GNetwork ChineseTraditionalLanguage "3G, 第三代的簡稱, 是只第三代行動通訊技術。 它是2G和 2.5G GPRS 網路的升級版, 對於更高速的網路速度。 這是建立於一套標準使用在行動裝置和行動通訊使用尊崇由國際通訊聯盟所訂之國際行動通訊(IMT-2000)規格的服務跟網路。 3G 應用在無線語音通信, 行動網路存取, 定點無線網路存取, 視訊通話及行動電視。 3G 無線網路支援以0.2 Mbit/ s速率傳遞訊息的服務。 (資料轉載由維基百科)") ComputingBrands.kif 1152-1155
(documentation 3GNetwork EnglishLanguage "3G, short for third generation, is the third generation of wireless mobile telecommunications technology. It is the upgrade for 2G and 2.5G GPRS networks, for faster internet speed. This is based on a set of standards used for mobile devices and mobile telecommunications use services and networks that comply with the International Mobile Telecommunications-2000 (IMT-2000) specifications by the International Telecommunication Union. 3G finds application in wireless voice telephony, mobile Internet access, fixed wireless Internet access, video calls and mobile TV. 3G telecommunication networks support services that provide an information transfer rate of at least 0.2 Mbit/ s. (from Wikipedia)") ComputingBrands.kif 1142-1151
(documentation 3GNetwork JapaneseLanguage "第3世代移動通信システム(だいさんせだいいどうつう しんシステム)とは、国際電気通信連合(ITU) が定める「IMT-2000」 (International Mobile Telecommunication 2000) 規格に準拠した通信システムのこと。ITUは5種類の地上系通信方式と6種類の 衛星系通信方式を1999年に勧告した。日本の例では、NTTドコモやソフトバンク、ワイモバイルが採用して いるW-CDMA方式(欧州ではUMTS方式と呼ばれる)やKDDI・沖縄セルラー電話連合の「au」が採用している CDMA2000 1x(CDMA2000 1xRTT、当初はCDMA2000)方式がある。 ITUでは、2007年11月現在、世界100か 国以上の700を超えるネットワークで8億以上の加入者が存在するとしている。一般的に英語の「3rd Generation」から、「3G(スリージー)」と呼ばれる。(ウィキペディア参照)") ComputingBrands.kif 1162-1169
(documentation 4GNetwork ChineseLanguage "4G是第四代宽频行动通信技术,超越3G。 一个4G系统必须提供由ITU定义在进阶IMT的能力,IP通信,游戏服务,高解析行动电视,视讯会议,和3D电视。在2009年三月, 国际电信联盟无线电通信部门(ITU-R)订出一套对于4G标准的要求,命名为国际行动通讯进阶规格(IMT-Advanced), 设定对于4G服务尖峰速率要求在每秒100兆位元(Mbit / s)(=每秒12.5兆字节)对于高行动通讯 (例如从火车和车子上)和每秒1千兆位元速率对于低行动性通讯(例如路上行人和非移动的使用者。(资料转载由维基百科)") ComputingBrands.kif 1206-1210
(documentation 4GNetwork ChineseTraditionalLanguage "4G 是第四代寬頻行動通信技術,超越3G。 一個4G系統必須提供由ITU定義在進階IMT的能力, IP 通信, 遊戲服務, 高解析行動電視, 視訊會議, 和3D電視. 在2009三月, 國際電信聯盟無線電通信部門 (ITU-R)訂出一套對於4G標準的要求, 命名為國際行動通訊進階規格 (IMT-Advanced), 設定對於4G服務尖峰速率要求在 每秒100兆位元 (Mbit/ s) (=每秒12.5 兆bytes) 對於高行動通訊 (例如從火車和車子上) 和 每秒1 千兆位元速率對於低行動性通訊 (例如路上行人和非移動的使用者)。(資料轉載由維基百科)") ComputingBrands.kif 1200-1204
(documentation 4GNetwork EnglishLanguage "4G is the fourth generation of broadband cellular network technology, succeeding 3G. A 4G system must provide capabilities defined by ITU in IMT Advanced. Potential and current applications include amended mobile web access, IP telephony, gaming services, high-definition mobile TV, video conferencing, and 3D television. In March 2009, the International Telecommunications Union-Radio communications sector (ITU-R) specified a set of requirements for 4G standards, named the International Mobile Telecommunications Advanced (IMT-Advanced) specification, setting peak speed requirements for 4G service at 100 megabits per second (Mbit/ s)(=12.5 megabytes per second) for high mobility communication (such as from trains and cars) and 1 gigabit per second (Gbit/ s) for low mobility communication (such as pedestrians and stationary users).(from Wikipedia)") ComputingBrands.kif 1188-1198
(documentation 4GNetwork JapaneseLanguage "第4世代移動通信システム(だいよんせだいいどうつうしんシステム) とは、国際電気通信連合 (ITU) が定めるIMT-Advanced規格に準拠する無線通信システムのこと[1]。英語: 4th Generation, 「4G」と略記される。LTE、WiMAXそれぞれの後継規格であるLTE-AdvancedとWirelessMAN-Advanced (WiMAX2)が該当する。(ウィキペディア参照)") ComputingBrands.kif 1212-1215
(documentation 5GNetwork ChineseLanguage "第五代移动通信技术(英语:5th generation mobile networks或5th generation wireless systems,簡稱 5G)是最新一代蜂窝移动通信技术,是4G(LTE-A、 WiMAX-A)系统后的延伸。5G的性能目标是高数据速率、减少延迟、节省能源、降低成本、提高系统容量和大规模设备连接。 Release-15中的5G规范的第一阶段是为了适应早期的商业部署。Release-16的第二阶段将于2020年4月完成, 作为IMT-2020技术的候选提交给国际电信联盟(ITU)。 ITU IMT-2020规范要求速度高达20 Gbit/ s,可以实现宽通道带宽和大容量MIMO。 第三代合作伙伴计划(3GPP) 将提交5G NR(新无线电)作为其5G通信标准提案。5G NR可包括低频(FR1),低于6 GHz和更高频率(FR2), 高于2.4 GHz和毫米波范围。然而,在早期部署中,在4G硬件(非独立)上使用5G NR软件的速度和延迟只比新4G系统稍好一点, 估计要好15%到50%。 独立eMBB部署的仿真显示,在FR1范围内,吞吐量提高了2.5倍,在FR2范围内提高了近20倍。 目前,提供5G无线硬件与系统的公司有:华为、三星、高通、思科、諾基亞、愛立信、聯發科技、瞻博網路、中興。(资料转载由维基百科)") ComputingBrands.kif 1253-1262
(documentation 5GNetwork ChineseTraditionalLanguage "第五代移動通信技術(英語:5th generation mobile networks或5th generation wireless systems,簡稱 5G)是最新一代蜂窩移動通信技術,是4G (LTE-A,WiMAX-A)系統後的延伸.5G的性能目標是高數據速率,減少延遲,節省能源,降低成本, 提高系統容量和大規模設備連接.Release-15中的5G規範的第一階段是為了適應早期的商業部署.Release-16的第二階段將於2020年4月完成, 作為IMT-2020技術的候選提交給國際電信聯盟(ITU)。 ITU IMT-2020規範要求速度高達20 Gbit / s,可以實現寬通道帶寬和大容量MIMO。第三代合作夥伴計劃(3GPP) 將提交5G NR(新無線電)作為其5G通信標準提案.5G NR可包括低頻(FR1),低於6 GHz和更高頻率(FR2), 高於2.4 GHz和毫米波範圍。然而,在早期部署中,在4G硬件(非獨立)上使用5G NR軟件的速度和延遲只比新4G系統稍好一點, 估計要好15%到50%。獨立eMBB部署的仿真顯示,在FR1範圍內,吞吐量提高了2.5倍,在FR2範圍內提高了近20倍。 目前,提供5G無線硬件與系統的公司有:華為,三星,高通,思科,諾基亞,愛立信,聯發科技,瞻博網路,中興。(資料轉載由維基百科)") ComputingBrands.kif 1242-1251
(documentation 5GNetwork EnglishLanguage "5G is the fifth generation cellular network technology. The industry association 3GPP defines any system using '5G NR' (5G New Radio) software as '5G', a definition that came into general use by late 2018. Others may reserve the term for systems that meet the requirements of the ITU IMT-2020. 3GPP will submit their 5G NR to the ITU. It follows 2G, 3G and 4G and their respective associated technologies (such as GSM, UMTS, LTE, LTE Advanced Pro and others). (from Wikipedia)") ComputingBrands.kif 1234-1240
(documentation 5GNetwork JapaneseLanguage "第5世代移動通信システム(だい5せだいいどうつうしん システム)。英語:5th Generation, 「5G」(ごジー、ファイブジー)と略記される。1G、2G、3G、4Gに 続く無線通信システムである。(ウィキペディア参照)") ComputingBrands.kif 1264-1266
(documentation AAA-Rating EnglishLanguage "The highest rating given by bond rating agencies") FinancialOntology.kif 2444-2444
(documentation AAM EnglishLanguage "An air-to-air missile (AAM) is a guided missile fired from an aircraft for the purpose of destroying another aircraft. It is typically powered by one or more rocket motors, usually solid fuelled but sometimes liquid fuelled. (from Wikipedia)") MilitaryDevices.kif 1171-1174
(documentation AAV EnglishLanguage "The Amphibious Assault Vehicle (AAV) (official designation AAV-7A1 (formerly known as LVT-7)) is the current amphibious troop transport of the United States Marine Corps and is also operated by other forces. The AAV-7A1 is a fully tracked amphibious landing vehicle manufactured by FMC Corporation. It is used by USMC Amphibious Assault Battalions to land the surface assault elements of the landing force and their equipment in a single lift from assault shipping during amphibious operations to inland objectives and to conduct mechanized operations and related combat support in subsequent mechanized operations ashore.") MilitaryDevices.kif 1649-1657
(documentation ABPFn EnglishLanguage "Average buying price. Total GMB divided by the total number of items sold (not the transactions) in a given time interval.") UXExperimentalTerms.kif 3429-3430
(documentation ABTest EnglishLanguage "An ExperimentAttribute signifying the experimenting has at least one experimentalControlProcess and at least one experimentalVariableProcess being tested.") UXExperimentalTerms.kif 4614-4616
(documentation ACPowerSource EnglishLanguage "ACPowerSource refers to an alternating current PowerSource") Mid-level-ontology.kif 24412-24413
(documentation AGM EnglishLanguage "An air-to-surface missile (also, air-to-ground missile, ASM or AGM) is a missile designed to be launched from military aircraft (bombers, attack aircraft, fighter aircraft or other kinds) and strike ground targets on land, at sea, or both. They are similar to guided glide bombs but to be considered a missile, they usually contain some form of propulsion system. The two most common propulsion systems for air-to-surface missiles are rocket motors and jet engines. These also tend to correspond to the range of the missiles - short and long, respectively. Some Soviet air-to-surface missiles are powered by ramjets, giving them both long range and high speed. (from Wikipedia)") MilitaryDevices.kif 1124-1133
(documentation AGM114 EnglishLanguage "AGM-114 Hellfire (Helicopter launched fire-and-forget) is a U.S. air-to-ground missile system designed to defeat tanks and other individual targets while minimizing the exposure of the launch vehicle to enemy fire. Hellfire uses laser guidance and is designed to accept other guidance packages. It is used on helicopters against heavily armored vehicles at longer standoff distances than any other U.S. Army missiles now in the inventory. The Hellfire II is the optimized version of the laser family of Hellfire missiles. The Longbow Hellfire Modular Missile System is an air-launched, radar aided, inertially guided missile that utilizes millimeter-wave radar technology. Despite the expanded acronym, most versions of the Hellfire missile are not truly fire-and-forget -- all the laser-guided versions require constant illumination or painting of the target from launch to impact. The AGM-114L is a true fire-and-forget weapon: it requires no further guidance after launch and can hit its target without the launcher being in line of sight of the target. The Hellfire (along with the Maverick and the air-launched TOW) was to be replaced by the Joint Common Missile (JCM) around 2011. The JCM was developed with a tri-mode seeker and a multi-purpose warhead that would combine the capabilities of the several Hellfire variants. In the budget for FY2006, the US Department of Defense canceled a number of projects that they felt no longer warranted continuation based on their cost effectiveness, including the JCM. Due to the U.S. military's continuing need for a proven precision-strike aviation weapon in the interim until a successor to the JCM is fielded, as well as extensive foreign sales, it is likely the Hellfire will be in service for many years. (from Wikipedia)") MilitaryDevices.kif 1205-1230
(documentation AGM65 EnglishLanguage "The AGM-65 Maverick is an air-to-surface tactical missile (ASM) designed for close air support, prohibition, and forceful prevention. It is effective against a wide range of tactical targets, including armor, air defenses, ships, ground transportation, and fuel storage facilities. The AGM-65F (infrared targeting) used by the US Navy has an infrared guidance system optimized for ship tracking and a larger penetrating warhead than the shaped charge used by the US Marine Corps and the US Air Force (300 pounds (136 kg) vs 125 pounds (57 kg)). The AGM-65 has two types of warheads, one has a contact fuze in the nose, and the other has a heavyweight warhead with a delayed fuze, which penetrates the target with its kinetic energy before firing. The latter is most effective against large, hard targets. The propulsion system for both types is a solid-fuel rocket motor behind the warhead. (from Wikipedia)") MilitaryDevices.kif 1138-1150

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