| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 提早大闸蟹上市时间的方法 | CN202010739806.8 | 2020-07-28 | CN112056248A | 2020-12-11 | 邢红平; 李建伟; 邹军 |
| 本发明涉及大闸蟹养殖领域,公开了提早大闸蟹上市时间的方法,在大闸蟹养殖期间包括以下步骤:检测池底表土3:1层;中投氮放含放量线,菌通,过控制投放池底钾表肥,土调层节中池放底线表菌土数层量中为氮10钾5~比10为6个5~/g;检测池底表土层pH值,通过酸碱调节剂调节池底表土层至pH6.5~7.5;栽种沉水植物,沉水植物所占面积为养殖池面积的25~40%;保持每天水深在0.6米至1米间,每天变化一次。通过本发明采用的方法,较常规养殖能提前一个月达到上市标准。 | ||||||
| 2 | 用于克瑞森葡萄拉长上市时间跨度的种植方法 | CN202210079446.2 | 2022-01-24 | CN114365653A | 2022-04-19 | 董华芳; 许延波; 张旭东; 刘永碧; 方印; 杨军; 彭世逞; 郑传刚; 董花琴 |
| 本发明公开了一种种植方法,尤其是公开了一种用于克瑞森葡萄拉长上市时间跨度的种植方法,属于农作物栽培技术领域。提供一种操作相对简单、技术难度相对较低的能显著拉长成品葡萄上市时间长度的用于克瑞森葡萄拉长上市时间跨度的种植方法。所述的种植方法以现有的种植路线为基础,至少通过加强营养供应、增强生长调控以及提高植株土壤根系量实现拉长克瑞森葡萄上市的时间跨度,其中,在提高植株土壤根系量时,先根据土壤的pH值进行酸碱度调整,根据土壤的导电率确定施肥种类以及施肥方式,与此同时根据季节气候变化对植株根部进行起垄栽培增加埋入土壤中的根部深度来增加每株植株根部的根系量。 | ||||||
| 3 | 用于克瑞森葡萄拉长上市时间跨度的种植方法 | CN202210079446.2 | 2022-01-24 | CN114365653B | 2023-03-17 | 董华芳; 许延波; 张旭东; 刘永碧; 方印; 杨军; 彭世逞; 郑传刚; 董花琴 |
| 本发明公开了一种种植方法,尤其是公开了一种用于克瑞森葡萄拉长上市时间跨度的种植方法,属于农作物栽培技术领域。提供一种操作相对简单、技术难度相对较低的能显著拉长成品葡萄上市时间长度的用于克瑞森葡萄拉长上市时间跨度的种植方法。所述的种植方法以现有的种植路线为基础,至少通过加强营养供应、增强生长调控以及提高植株土壤根系量实现拉长克瑞森葡萄上市的时间跨度,其中,在提高植株土壤根系量时,先根据土壤的pH值进行酸碱度调整,根据土壤的导电率确定施肥种类以及施肥方式,与此同时根据季节气候变化对植株根部进行起垄栽培增加埋入土壤中的根部深度来增加每株植株根部的根系量。 | ||||||
| 4 | 一种基于机器学习的火龙果上市时间预测的方法 | CN202110352356.1 | 2021-03-31 | CN113298286A | 2021-08-24 | 温标堂; 覃明官; 黄文娟; 覃敬源; 梁海玲; 伍祚斌 |
| 本发明公开一种基于机器学习的火龙果上市时间预测的方法,包括以下步骤:(1)数据采集:采集火龙果基地气象因素及对应的上市时间的历史数据,构建火龙果气象历史数据库;(2)机器学习训练:对火龙果气象历史数据库的上市时间进行提取与随机分配,形成训练集和测试集;(3)获得新的特征值:从火龙果气象历史数据库提取的火龙果基地气象因素作为特征扩展和训练集向量化后进行拼接得到新的向量;将现有的火龙果基地气象因素作为输入来训练卷积神经网络,再把测试集输入到训练好的卷积神经网络进行机器学习,获得新的特征值;(4)获得上市预测时间:针对新的特征值进行预测,获得上市预测时间。本发明具有推广性、普适性。 | ||||||
| 5 | 一种基于大数据分析的大棚草莓上市时间调控系统 | CN201811442217.2 | 2018-11-29 | CN109582069A | 2019-04-05 | 张今旗; 唐文辉; 靖昌瑞; 周法闯; 赵煜庭; 胡建平; 吕晓兰; 陶建平 |
| 本发明涉及智能种植技术领域,尤其涉及一种基于大数据分析的大棚草莓上市时间调控系统,包括若干感知单元、智能网关、云服务器、控制中心、移动端和无线控制设备,感知单元安装在大棚中,感知单元将大棚中草莓的生存和环境数据发送给智能网关,智能网关将大棚中草莓的生存和环境数据发送至云服务器,云服务器进行大数据分析处理后为控制中心和移动端提供所需数据,用户通过控制中心或移动端对大棚中草莓的生存和环境情况进行监视,并根据历史草莓种植的大数据分析通过无线控制设备调节大棚中的草莓的生存环境。本发明能够对大棚内二氧化碳浓度、空气温度、土壤温湿度、光照强度以及土壤肥力等进行准确监控,从而更加合理的控制草莓上市时间。 | ||||||
| 6 | 一种不受地域限制可定制上市时间的浆果培育方法 | CN202010521191.1 | 2020-06-10 | CN111527977A | 2020-08-14 | 王东东; 郝庆照; 王桂欣; 王桂民; 李莎莎; 王岩 |
| 本发明公开了一种不受地域限制可定制上市时间的浆果培育方法,该方法既可使浆果不受地域限制的进行移动栽培,又能通过人为改变浆果植株生长周期,从而实现浆果成熟期可定制化培育。该方法利用新型盆栽技术实现浆果种植可移动化;同时通过人工干预浆果生长周期中的最为关键的时段即落叶休眠期的方式,实现浆果上市时间的可定制化。通过本专利提供的培育方法,可使浆果上市不受时间和地域的限制,有望在很大程度上缓解市场压力,充分调动农民种植浆果的积极性,提高浆果产品的附加值,该方法对增加农民收入和提高市场经济效益具有现实意义。 | ||||||
| 7 | 一种提前大花萱草上市时间的全膜覆盖育苗方法 | CN201310225508.7 | 2013-06-07 | CN103270882B | 2016-06-29 | 尹新彦; 储博彦; 赵玉芬; 张全锋; 李金霞; 朱玉菲; 李宁 |
| 本发明涉及一种大花萱草育苗技术,特别涉及一种可提前大花萱草上市时间的种植技术,其包括下述操作步骤:步骤一:土地上冻前,将2年生萱草苗的地块浇透冻水,3~4天后,以地膜覆盖整畦;步骤二:苗高2.5~3.5cm时,在畦两边的地膜上各开2个放风口;步骤三:当外界气温升高至10±2℃时,逐渐增加放风口的长度和高度;步骤四:苗高7.5~12cm时,揭开覆盖的地膜;步骤五:全光照0~4天后起苗上市。与现有技术相比,本发明具有节水、提前了大花萱草的上市时间并增加经济效益的优势。 | ||||||
| 8 | 一种基于大数据分析的大棚柑橘上市时间调控系统 | CN201910748376.3 | 2019-08-14 | CN110455824A | 2019-11-15 | 李伟; 王越 |
| 本发明属于柑橘上市时间调控技术领域,公开了一种基于大数据分析的大棚柑橘上市时间调控系统,所述基于大数据分析的大棚柑橘上市时间调控系统包括:柑橘图像采集模块、中央控制模块、图像特征提取模块、表面缺陷检测模块、成熟度判断模块、品质评价模块、时间调控模块、大数据处理模块、显示模块。本发明通过表面缺陷检测模块克服了传统缺陷检测算法的复杂性,能够有效检测不同灰度等级的柑橘表面缺陷;同时,通过品质评价模块根据不同柑橘类别进行品评,从外观、质地、口感、滋味、香气等多个维度进行品评,从喜好度到描述性分析对柑橘类产品进行逐项分析,保证了评述数据的科学性。 | ||||||
| 9 | 一种提前大花萱草上市时间的全膜覆盖育苗方法 | CN201310225508.7 | 2013-06-07 | CN103270882A | 2013-09-04 | 尹新彦; 储博彦; 赵玉芬; 张全锋; 李金霞; 朱玉菲; 李宁 |
| 本发明涉及一种大花萱草育苗技术,特别涉及一种可提前大花萱草上市时间的种植技术,其包括下述操作步骤:步骤一:土地上冻前,将2年生萱草苗的地块浇透冻水,3~4天后,以地膜覆盖整畦;步骤二:苗高2.5~3.5cm时,在畦两边的地膜上各开2个放风口;步骤三:当外界气温升高至10±2℃时,逐渐增加放风口的长度和高度;步骤四:苗高7.5~12cm时,揭开覆盖的地膜;步骤五:全光照0~4天后起苗上市。与现有技术相比,本发明具有节水、提前了大花萱草的上市时间并增加经济效益的优势。 | ||||||
| 10 | Personal date/time notary device | EP97203885.5 | 1994-04-15 | EP0841604A2 | 1998-05-13 | Fischer, Addison M. |
A personal data/time notary device is embodied in a token device such as a "smart card". The portable notary device includes an input/output (I/O) port, which is coupled to a single integrated circuit chip. The I/O port may be coupled to a conventional smart card reading device which in turn is coupled to a PC, lap-top computer or the like. A tamper resistant secret private key storage is embodied on the chip. The private key storage is coupled to the processor which, in turn, is coupled to a permanent memory that stores the program executed by the processor. At least one clock is embodied on the card. A second clock 14 and a random value generator 10 are also preferably coupled to the processor. The device combines digital time notarization into a digital signature operation to ensure that a time stamp is always automatically present. The user does not need to be involved in any additional decision making as to whether time stamping is necessary. |
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| 11 | Personal date/time notary device | EP97203885.5 | 1994-04-15 | EP0841604B1 | 2008-05-14 | Fischer, Addison M. |
| 12 | Personal date/time notary device | EP97203885.5 | 1994-04-15 | EP0841604A3 | 2000-12-06 | Fischer, Addison M. |
A personal data/time notary device is embodied in a token device such as a "smart card". The portable notary device includes an input/output (I/O) port, which is coupled to a single integrated circuit chip. The I/O port may be coupled to a conventional smart card reading device which in turn is coupled to a PC, lap-top computer or the like. A tamper resistant secret private key storage is embodied on the chip. The private key storage is coupled to the processor which, in turn, is coupled to a permanent memory that stores the program executed by the processor. At least one clock is embodied on the card. A second clock 14 and a random value generator 10 are also preferably coupled to the processor. The device combines digital time notarization into a digital signature operation to ensure that a time stamp is always automatically present. The user does not need to be involved in any additional decision making as to whether time stamping is necessary. |
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| 13 | ALLOCATION AND SCHEDULING STRATEGY FOR IMPROVED TRICK PLAY PERFORMANCE AND TEMPORAL SCALABILITY | EP03758597.3 | 2003-10-31 | EP1570660A1 | 2005-09-07 | VAN GASSEL, Jozef, P.; KELLY, Declan, P. |
| A method and apparatus for recording a data stream on a storage medium for improving non-linear playback performance of the recorded data is disclosed. First, the data stream is received. The I-pictures from the data stream are stored in a first buffer and the remaining data from the data stream is stored in a second buffer. Each time the first buffer becomes full, the I-pictures stored in the first buffer are written onto an intra-coded allocation unit on the storage medium. Then, the contents of the second buffer are written onto preferably a subsequent inter-coded allocation unit. | ||||||
| 14 | Method and system for reducing the time-to-market concerns for embedded system design | US10459859 | 2003-06-12 | US07620678B1 | 2009-11-17 | Paul L. Master; W. James Scheuermann |
| Aspects for reducing the time-to-market concerns for embedded system design are described. The aspects include providing an infrastructure to support a plurality of heterogeneous processing nodes as a reconfigurable network. Further included is utilizing the infrastructure to customize at least one of the heterogeneous processing nodes according to individualized design needs to achieve a desired embedded system signal processing engine. | ||||||
| 15 | PROVIDING GUARANTEED, SPECIFIED AND/OR PREDETERMINED EXECUTION PRICES IN A GUARANTEED, SPECIFIED AND/OR PREDETERMINED TIMEFRAME ON THE PURCHASE OR SALE OF LISTED OPTIONS | PCT/US2005034538 | 2005-09-26 | WO2006036942B1 | 2007-03-15 | GRIFFIN KENNETH C; ANDRESEN MATTHEW |
| Methods and system are provided which enable options broker-dealers (120) to guarantee execution of an option trade order within a specified time window. By providing means to quantify and mitigate the effects of several factors which contribute to options market inefficiency (e.g., market structure, regulatory constrains, and "market misbehavior"), these methods and systems eliminate or at least reduce the level of broker-dealer (120) risk inherent in offering an execution speed guarantee, while optionally simultaneously providing better execution quality for investors (110). | ||||||
| 16 | PROVIDING GUARANTEED, SPECIFIED AND/OR PREDETERMINED EXECUTION PRICES IN A GUARANTEED, SPECIFIED AND/OR PREDETERMINED TIMEFRAME ON THE PURCHASE OR SALE OF LISTED OPTIONS | PCT/US2005/034538 | 2005-09-26 | WO2006036942A2 | 2006-04-06 | GRIFFIN, Kenneth, C.; ANDRESEN, Matthew |
Methods and systems are provided which enable options broker-dealers to guarantee execution of an option trade order within a specified time window. By providing means to quantify and mitigate the effects of several factors which contribute to options market inefficiency (e.g., market structure, regulatory constraints, and "market misbehavior"), these methods and systems eliminate or at least reduce the level of broker-dealer risk inherent in offering an execution speed guarantee, while optionally simultaneously providing better execution quality for investors. |
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| 17 | PROVIDING GUARANTEED, SPECIFIED AND/OR PREDETERMINED EXECUTION PRICES IN A GUARANTEED, SPECIFIED AND/OR PREDETERMINED TIMEFRAME ON THE PURCHASE OR SALE OF LISTED OPTIONS | PCT/US2005034538 | 2005-09-26 | WO2006036942A3 | 2007-01-11 | GRIFFIN KENNETH C; ANDRESEN MATTHEW |
| Methods and system are provided which enable options broker-dealers (120) to guarantee execution of an option trade order within a specified time window. By providing means to quantify and mitigate the effects of several factors which contribute to options market inefficiency (e.g., market structure, regulatory constrains, and "market misbehavior"), these methods and systems eliminate or at least reduce the level of broker-dealer (120) risk inherent in offering an execution speed guarantee, while optionally simultaneously providing better execution quality for investors (110). | ||||||
| 18 | COMPUTER IMPLEMENTED AND/OR ASSISTED METHODS AND SYSTEMS FOR PROVIDING GUARANTEED, SPECIFIED AND/OR PREDETERMINED EXECUTION PRICES IN A GUARANTEED, SPECIFIED AND/OR PREDETERMINED TIMEFRAME ON THE PURCHASE OR SALE OF, FOR EXAMPLE, LISTED OPTIONS | US12577546 | 2009-10-12 | US20100030704A1 | 2010-02-04 | Kenneth C. GRIFFIN; Matthew ANDRESEN |
| Methods and systems are provided which enable options broker-dealers to guarantee execution of an option trade order within a specified time window. By providing means to quantify and mitigate the effects of several factors which contribute to options market inefficiency (e.g., market structure, regulatory constraints, and “market misbehavior”), these methods and systems eliminate or at least reduce the level of broker-dealer risk inherent in offering an execution speed guarantee, while optionally simultaneously providing better execution quality for investors. | ||||||
| 19 | 一种基于药物再利用的药物与疾病匹配方法和装置 | CN201910130214.3 | 2019-02-21 | CN109859816A | 2019-06-07 | 李瑛颖; 管峥; 王丽君 |
| 本申请实施例公开一种基于药物再利用的药物与疾病匹配方法和装置,获取目标疾病和目标已上市药物,目标疾病与目标已上市药物具有第一对应关系,第一对应关系用于体现目标已上市药物用于治疗目标疾病;根据目标已上市药物的化学结构从已上市药物中确定目标已上市药物的相似化合物;根据目标疾病确定目标疾病的相似靶点;将相似化合物与相似靶点进行匹配,根据匹配结果确定第二对应关系,并根据第二对应关系确定目标对应关系,目标对应关系体现目标已上市药物用于治疗与目标疾病不同的疾病或目标疾病通过与目标已上市药物不同的其他已上市药物治疗。本方案完全利用已上市药物,无需开发新药物,大大降低研发过程所消耗的时间、费用,节约研发成本。 | ||||||
| 20 | 一年两茬日本对虾苗种标粗方法 | CN202210337648.2 | 2022-04-01 | CN114631505B | 2022-11-25 | 盖春蕾; 许拉; 王淑娴; 王晓璐; 樊英; 刁菁 |
| 本发明涉及一年两茬日本对虾苗种标粗方法,属于水产养殖领域,所述方法从3月底4月初开始将0.7‑0.9cm的日本对虾苗,经过20‑22天小温棚集中标粗,使其规格达到2.5‑3cm,然后4月底投放至外部养殖池塘,起捕完第一茬标粗日本对虾苗种后,再次投放0.9‑1.1cm日本对虾苗种,采用同样的标粗方式,经过20‑25天的标粗,起捕第二批次的日本对虾苗种,5月中旬放养至外部养殖池塘;本发明方法成本低,标粗后的苗种体质健壮成活率高,发病率低;标粗后养殖的日本对虾7月底即可上市,较传统上市时间缩短一个月且出池对虾规格大,产量提高近一倍,避开上市高峰,效益高。 | ||||||
