| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | SYSTEMS AND METHODS FOR IDENTIFYING PESTS IN CROP-CONTAINING AREAS VIA UNMANNED VEHICLES | PCT/US2017/049535 | 2017-08-31 | WO2018048708A1 | 2018-03-15 | CANTRELL, Robert L.; THOMPSON, John P.; WINKLE, David C.; ATCHLEY, Michael D.; HIGH, Donald R.; MATTINGLY, Todd D.; MCHALE, Brian G.; O'BRIEN, John J.; SIMON, John F. |
In some embodiments, methods and systems of identifying at least one pest in a crop-containing area include an unmanned vehicle including a visible light video camera configured to detect a pest in the crop-containing area and to capture first pest detection data and an infrared video camera configured to detect a pest in the crop-containing area and to capture second pest detection data. A computing device including a processor-based control circuit and configured to communicate with the unmanned vehicle is configured to receive the first pest detection data and the second pest detection data via the network from the UAV, and, in response to receipt of the first and second pest detection data from the UAV, the control circuit of the computing device is configured to combine the first and second pest detection data to create a combined pest detection data, which in turn enables the control circuit of the computing device to determine an identity of the pest based on the pest identity data and the combined pest detection data. |
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| 82 | Agricultural crop raising system and agricultural crop raising method | JP2004221045 | 2004-07-29 | JP2006034202A | 2006-02-09 | MORIOKA SHINICHI |
| <P>PROBLEM TO BE SOLVED: To provide an agricultural crop raising system intended for performing elimination of evil effect of noxious organism before planting agricultural crops without causing environmental pollution and continuously controlling reproduction of noxious organism even after planting agricultural crops. <P>SOLUTION: The agricultural crop raising system has an evil effect eliminating fluid producing means 1 and a deoxygenated water producing means 2. The evil effect eliminating fluid producing means 1 is, for instance, a once-through boiler 3, and the deoxygenated water producing means 2 is, for instance, a gas permeation membrane type deoxygenation device 15. An agricultural crop raising method comprises a process of supplying evil effect eliminating fluid to soil 34 to subject the soil to evil effect eliminating treatment and a process of watering deoxygenated water to the soil 34 subjected to evil effect eliminating treatment. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 83 | 保護農作物之方法及裝置 METHOD AND DEVICE FOR PROTECTING CROP PLANTS | TW096141480 | 2007-11-02 | TW200836619A | 2008-09-16 | 奧理奇 卡爾 KARL, ULRICH; 哈木特 利林格 LEININGER, HARTMUT; 斯繆爾 維爾斯 WELLS, SAMUEL; 喬俊 赫夫 HUFF, JUERGEN |
| 本發明提供保護農作物以防有害生物體之方法,該方法包括用包括穩定結構及網眼織物之裝置覆蓋一或多株植物之步驟,其中該網眼織物係浸漬有農藥且可透光、空氣及水。 | ||||||
| 84 | 셀 형식 분류를 이용한 농자재 방제 방법이 구현되는 단말, 그리고 이를 이용한 셀 형식 분류를 이용한 농자재 방제 방법 | KR1020130143183 | 2013-11-22 | KR1020150059506A | 2015-06-01 | 이준홍; 옥윤선 |
| 본발명은셀 형식분류를이용한농자재방제방법이구현되는단말, 그리고이를이용한셀 형식분류를이용한농자재방제방법에관한것이다. 본발명의제 1 측면은, 입력부(11), 제어부(12), 저장부(13) 및출력부(14)를포함하는셀 형식분류를이용한농자재방제방법이구현되는단말(10)에있어서, 상기제어부(12)는, 상기입력부(11)로의어플리케이션구동명령에따라초기 UI 화면을상기출력부(14)로구현한뒤, 사용자로부터상기입력부(11)를통한선택신호를대기하며상기초기 UI 화면은방제시작화면으로, 지역설정, 방제대상설정, 기타설정메뉴로구분되는셀 형식분류를이용한농자재방제방법이구현되는단말을제공함에있다. 본발명의제 2 측면은, 셀형식분류를이용한농자재방제방법이구현되는단말(10)이지역설정을수행하는제 1 단계; 및상기셀 형식분류를이용한농자재방제방법이구현되는단말(10)이방제대상설정을수행하는제 2 단계; 를포함하는셀 형식분류를이용한농자재방제방법이구현되는단말을이용한셀 형식분류를이용한농자재방제방법을제공함에있다. 이에의해, 지적도를셀화시켜분류함으로써, GPS 정보를통해방제대상을명확히알려주고어둠속에서방제대상의크기를가늠시켜주도록할 뿐만아니라, 이에의해방제시불필요한작업인원, 시간, 약제, 방제비를줄여효율적인방제를돕도록하는효과를제공한다. | ||||||
| 85 | SYSTEMS AND METHODS FOR DEFENDING CROPS FROM CROP-DAMAGING PESTS VIA UNMANNED VEHICLES | US15696586 | 2017-09-06 | US20180064094A1 | 2018-03-08 | Robert L. Cantrell; John P. Thompson; David C. Winkle; Michael D. Atchley; Donald R. High; Todd D. Mattingly; Brian G. McHale; John J. O'Brien; John F. Simon |
| In some embodiments, methods and systems of defending a crop-containing area against crop-damaging pests include an unmanned aerial vehicle including a sensor that detects one or more pests in the crop-containing area and an output device configured to eliminate the pest from the crop-containing area. One or more docking stations configured to accommodate the UAV are provided. A computing device configured to communicate with the UAV and the docking station over a network is provided. The UAV is configured to send pest detection data captured by a sensor of the UAV while patrolling the crop-containing area. In return, the computing device is configured to send a signal to the UAV to indicate instructions to the UAV as to how to move or activate the output device in order to eliminate the detected pest from the crop-containing area. | ||||||
| 86 | SYSTEMS AND METHODS FOR DISPENSING AN INSECTICIDE VIA UNMANNED VEHICLES TO DEFEND A CROP-CONTAINING AREA AGAINST PESTS | PCT/US2017/049531 | 2017-08-31 | WO2018048706A1 | 2018-03-15 | CANTRELL, Robert L.; THOMPSON, John P.; WINKLE, David C.; ATCHLEY, Michael D.; HIGH, Donald R.; MATTINGLY, Todd D.; MCHALE, Brian G.; O'BRIEN, John J.; SIMON, John F. |
In some embodiments, methods and systems of dispensing an insecticide to defend a crop-containing area against crop-damaging pests include an unmanned vehicle having a sensor that detects a crop-damaging pest in the crop-containing area and captures pest detection data, and an insecticide output device including at least one insecticide directed at the pest. The unmanned vehicle transmits the captured pest detection data via the network to the computing device and, in response to receipt of the captured pest detection data via the network from the unmanned vehicle, the computing device accesses an electronic database to determine an identity of the at least one pest. Based on the determined identity of the crop-damaging pest, the computing device transmits a control signal to the unmanned vehicle to cause the insecticide output device of the unmanned vehicle to dispense one or more insecticides specific to the identified crop-damaging pest. |
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| 87 | Larvicidal lectins and plant insect resistance based thereon | US763100 | 1991-09-20 | US5407454A | 1995-04-18 | Anthony Cavalieri; Thomas Czapla; John Howard; Gururaj Rao |
| Selected plant lectins have been found to be larvicidal against a number of common insect pests of agricultural crops. In a preferred embodiment, plant resistance to these insects is produced by inserting into the cells of a plant a gene whose expression causes production of one or more of these lectins in larvicidal amounts. | ||||||
| 88 | Agricultural working machine | JP11440797 | 1997-04-15 | JPH10286010A | 1998-10-27 | TAKEDA YUICHI |
| PROBLEM TO BE SOLVED: To increase the working accuracy of the agricultural working machine that continuously let out the fertilizer and agricultural chemicals in the hopper to accurately effect fertilization and pest control by stabilizing their feed rates. SOLUTION: The fertilizer and agrochemicals in the hopper 37 is conveyed with the air flow blown by a blower through an air tube 42 thereby effecting fertilization and pest control. In this case, a plurality of horizontal frames 47, 48, 51, 52 are extended in the cross direction to form a box-type frame and the hopper 37 and the air pipe 42 is supported by the box-type frame individually. | ||||||
| 89 | Agent for combatting pest organisms | JP395483 | 1983-01-12 | JPS59128319A | 1984-07-24 | MASUDA KAZUNORI; HORINAKA AKIO; YAMAGUCHI MASANAGA; UCHIUMI KIYOSHI; KIMURA HIROSHI |
| PURPOSE: The whole part or a part of MANRYO (an evergreen bush, Ardisia crenata) or their dried products or extract is used to produce the objective agent for combatting pest organisms, which can be used as an excellent insecticide, acaricide, antifeedant or growth inhibitor. CONSTITUTION: The whole part or a part (such as leaves, wood parts, fruits) is processed by physical means such as cutting or crushing to form a powder or juice. Or it is dried naturally or under heating or extracted. Then, the resultant powder, juice, dried product or extract is used to produce the objective agent for combatting pest organisms such as agricultural insect pests, e.g., rice plant hopper or aphid, insect pests in cereal storage, e.g., acarus or rice weevil, unpleasant insects, e.g., ixodid, centipode or millipede, hygienic insect pests, e.g., fly, mosquito or cockroach or forestry insect pests, e.g., termites or wood borers. COPYRIGHT: (C)1984,JPO&Japio | ||||||
| 90 | WASSERFREIE ZUSAMMENSETZUNG UMFASSEND EIN GELÖSTES UND EIN SUSPENDIERTES PESTIZID, ALKYLLACTAT UND ALKOHOL | PCT/EP2011/051733 | 2011-02-07 | WO2011098419A2 | 2011-08-18 | MERTOGLU, Murat; MAYER, Winfried; STROBEL, Dieter; BERGHAUS, Rainer; STRATHMANN, Siegfried |
Gegenstand der vorliegenden Erfindung ist eine wasserfreie Formulierung umfassend a) ein erstes Pestizid in gelöster Form, b) ein zweites Pestizid in Form suspendierter Teilchen, c) ein Alkyllactat, und d) einen Alkohol. Ein weiterer Gegenstand ist ein Verfahren zur Bekämpfung von phytopathogenen Pilzen und/oder unerwünschtem Pflanzenwuchs und/oder unerwünschtem Insekten- oder Milbenbefall und/oder zur Regulation des Wachstums von Pflanzen, wobei man die genannte Formulierung auf die jeweiligen Schädlinge, deren Lebensraum oder die vor dem jeweiligen Schädling zu schützenden Pflanzen, den Boden und/oder auf unerwünschte Pflanzen und/oder die Nutzpflanzen und/oder deren Lebensraum einwirken lässt. Weiterhin betrifft die Erfindung die Verwendung der Formulierung zur Erhöhung der Regenfestigkeit der applizierten Pestizide. |
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| 91 | PESTICIDAL TOXIN PROTEINS ACTIVE AGAINST COLEOPTERAN INSECTS | PCT/US2015/023091 | 2015-03-27 | WO2015148976A1 | 2015-10-01 | BOWEN, David J.; CHAY, Catherine A.; FLASINSKI, Stanislaw; FU, Xiaoran; KESANAPALLI, Uma R; MILLIGAN, Jason S.; SLIGHTOM, Rachael N.; TU, Daqi; WOLLACOTT, Andrew M.; YIN, Yong |
The invention generally relates to the field of insect inhibitory toxin proteins. A novel class of proteins exhibiting insect inhibitory activity against agriculturally relevant pests of crop plants and seeds are disclosed. Insecticidal activity is particularly effective against the Coleopteran order of insect pests. Plants, plant parts, and seed are provided containing a polynucleotide construct encoding one or more of the toxin proteins disclosed herein. The proteins are referred to herein variously as the TIC2463-related toxin protein class or family, the TIC2463-related toxin proteins, the TIC2463-related protein genus, toxin proteins related to the TIC2463 toxin protein, proteins related to TIC2463, TIC2463-related toxin polypeptides, TIC2463-related pesticidal proteins, and the like. |
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| 92 | LIGHTING ENVIRONMENT CONTROL FACILITY FOR CULTIVATION OF CROPS, PEST CONTROL METHOD, AND INTENSIVE CULTIVATION METHOD | US13386136 | 2010-07-16 | US20120210637A1 | 2012-08-23 | Masataka Kamahara |
| Disclosed are: a lighting environment control facility capable of controlling light to be irradiated on cultivated crops to an optimum condition for the growth of the crops, thereby activating a natural defense of the crops against pests; a pest control method capable of determining whether or not to control pests of cultivated crops and controlling the pests on the basis of the determination; and an intensive cultivation method. The facility is used for pesticide-free cultivation, and includes a crop cultivation house which is formed of a light transmissive material and in which crops are cultivated, and a lighting control unit that controls the light to be irradiated upon the crops in the crop cultivation house. The lighting control unit is adapted to control spectral radiance (B1) of a wavelength range of blue light, spectral radiance (R1) of a wavelength range of red light, and spectral radiance (FR1) of a wavelength range of far-red light among the light to be irradiated on the crops that are cultivated in the crop cultivation house so as to be a predetermined condition. | ||||||
| 93 | LIGHTING ENVIRONMENT CONTROL FACILITY FOR CULTIVATION OF CROPS, PEST CONTROL METHOD, AND INTENSIVE CULTIVATION METHOD | US15193038 | 2016-06-25 | US20160302403A1 | 2016-10-20 | Masataka Kamahara |
| Disclosed are: a lighting environment control facility capable of controlling light to be irradiated on cultivated crops to an optimum condition for the growth of the crops, thereby activating a natural defense of the crops against pests; a pest control method capable of determining whether or not to control pests of cultivated crops and controlling the pests on the basis of the determination; and an intensive cultivation method. The facility is used for pesticide-free cultivation, and includes a crop cultivation house which is formed of a light transmissive material and in which crops are cultivated, and a lighting control unit that controls the light to be irradiated upon the crops in the crop cultivation house. The lighting control unit is adapted to control spectral radiance (B1) of a wavelength range of blue light, spectral radiance (R1) of a wavelength range of red light, and spectral radiance (FR1) of a wavelength range of far-red light among the light to be irradiated on the crops that are cultivated in the crop cultivation house so as to be a predetermined condition. | ||||||
| 94 | SYSTEMS AND METHODS FOR DISPENSING AN INSECTICIDE VIA UNMANNED VEHICLES TO DEFEND A CROP-CONTAINING AREA AGAINST PESTS | US15697860 | 2017-09-07 | US20180065747A1 | 2018-03-08 | Robert L. Cantrell; John P. Thompson; David C. Winkle; Michael D. Atchley; Donald R. High; Todd D. Mattingly; Brian G. McHale; John J. O'Brien; John F. Simon |
| In some embodiments, methods and systems of dispensing an insecticide to defend a crop-containing area against crop-damaging pests include an unmanned vehicle having a sensor that detects a crop-damaging pest in the crop-containing area and captures pest detection data, and an insecticide output device including at least one insecticide directed at the pest. The unmanned vehicle transmits the captured pest detection data via the network to the computing device and, in response to receipt of the captured pest detection data via the network from the unmanned vehicle, the computing device accesses an electronic database to determine an identity of the at least one pest. Based on the determined identity of the crop-damaging pest, the computing device transmits a control signal to the unmanned vehicle to cause the insecticide output device of the unmanned vehicle to dispense one or more insecticides specific to the identified crop-damaging pest. | ||||||
| 95 | ジカンバとドリフト抑制剤とを含む水性組成物 | JP2015517668 | 2013-06-11 | JP2015521609A | 2015-07-30 | ノルテ,マルク; シュウ,ウェン; ボウ,スティーブン; シュタール,マールテン; エム. キャナン,テランス |
| 本発明は、ジカンバとドリフト抑制剤とを含む水性組成物;水と上記組成物、および場合によりさらなる殺有害生物剤を接触させるステップを含むタンクミックスの調製方法;植物病原性菌類および/または望ましくない植生および/または望ましくない昆虫もしくはダニの攻撃を防除する方法ならびに/あるいは植物の生長を調節する方法であって、上記組成物を、それぞれの有害生物、それらの環境あるいはそれぞれの有害生物から保護すべき植物、土壌および/または望ましくない植物および/または作物ならびに/あるいはそれらの環境に作用させる、前記方法;さらに最終的には、殺有害生物剤を含む水性組成物の風ドリフトを低減するための以下に定義される式(I)のアルコキシレートの使用に関する。【選択図】なし | ||||||
| 96 | Technique to improve existing house culture to no agrochemical culture | JP21061192 | 1992-06-30 | JPH08154493A | 1996-06-18 | NIIBE AKITOSHI |
| PURPOSE: To provide a technique to set up a reentrant structure in a part of conventional green house or a technique simply applicable to wild fields by which physical actions by an energy-saving heater and anionic field sheets are brought about to effect soil disinfection, insect pest control and promotion of seedling growth, thus crop cultivation can be continued throughout year without use of injurious agrochemicals. CONSTITUTION: Utilizing an existing block type hot water-piping cultivator, an energy-saving face heater 1 and carbon electric field sheets 2 are embedded in the reentrant structure A to physically effect soil disinfection, growth promotion of seedlings and insect pest control, and seedlings are transplanted to the soil charged in a screen mesh 4 of a resin furnished to the block type cultivator. Or a vinyl house is built in a wild field and equipped with reentrant structure having legs in the bottom and including the physical effect generators, whereby crop cultivation with only physical effect can be carried out with no agrochemical. COPYRIGHT: (C)1996,JPO | ||||||
| 97 | INSECTICIDAL OVICIDAL COMPOSITION AND METHOD OF INSECT KILLING AND EGG KILLING | EP07741284.9 | 2007-04-09 | EP2036437A1 | 2009-03-18 | ARIMOTO, Yutaka; TANAKA, Kenichi |
A pesticidal/ovicidal composition comprising: (a) 50-99.9 parts by mass of a triglyceride containing not less than 50% of oleic acid as a fatty acid component; (b) 0.1-20 parts by mass of a nonionic surface active agent; and (c) 0-30 parts by mass of a glycerin derivative. The composition according to the invention has not only a pesticidal activity but also an ovicidal activity on crop pests, and provides a safe and high pesticidal/ovicidal effect. |
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| 98 | FORMULIERUNG VON LICHTEMPFINDLICHEN PESTIZIDEN UND UV-ABSORBER HALTIGEN KAMMPOLYMEREN | PCT/EP2010/068909 | 2010-12-06 | WO2011069931A1 | 2011-06-16 | RIGGS, Richard; LABISCH, Oliver; URIBE AROCHA, Paola; ISHAQUE, Michael; BITTNER, Christian |
Die vorliegende Erfindung betrifft eine Zusammensetzung enthaltend ein Pestizid und einen polymeren UV-Absorber umfassend als monomere Einheiten a) ein UV-Absorber enthaltend eine ethylenisch ungesättigte Gruppe (UV-Monomer), und b) ein Polyalkylenoxid enthaltend eine ethylenisch ungesättigte Gruppe (PEG-Monomer). Weiterhin betrifft die Erfindung ein Verfahren zur Herstellung des genannten polymeren UV- Absorbers, wobei das UV-Monomer und das PEG-Monomer radikalisch polymerisiert werden, sowie eine Zusammensetzung enthaltend ein Pestizid und den vorgenannten polymeren UV-Absorber. Schließlich betrifft sie auch ein Verfahren zur Bekämpfung von phytopathogenen Pilzen und/oder unerwünschtem Pflanzenwuchs und/oder unerwünschtem Insekten- oder Milbenbefall und/oder zur Regulation des Wachstums von Pflanzen, wobei man die vorgenannte Zusammensetzung auf die jeweiligen Schädlinge, deren Lebensraum oder die vor dem jeweiligen Schädling zu schützenden Pflanzen, den Boden und/oder auf unerwünschte Pflanzen und/oder die Nutzpflanzen und/oder deren Lebensraum einwirken lässt. |
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| 99 | METHODS AND COMPOSITIONS FOR PROTECTING PLANTS AND CROPS | PCT/US0144820 | 2001-11-28 | WO0245505A2 | 2002-06-13 | BASINGER WILLIAM H; OBER ALFONSO G; NARITELLI HUGO R |
| Molecular iodine, or a composition or ionic iodine complex which comprises, generates, or chemically or ionically releases molecular iodine, is used alone or mixed with a carrier for use as a plant and crop protectant. Secondary active ingredients, fertilizers, nutrients, phytosterols, micronutrients, promoters, polyaspartates, biomass, surfactants, emulsifiers, oils, odorants, waxes, salts, preservatives, herbicides, fungicides, nematicides, insecticides, bactericides, virucides, fumigants, iodides, rainfastness agents, adhesive extender agents, and tackifying extender agents are optionally added to the carrier for additional plant benefit. The molecular iodine and the desired beneficial additive(s) is applied, directly or indirectly by various methods, to agricultural substances, such as plants and crops, in order to protect the plants and/or crops from pests, such as fungi, nematodes, viruses, bacteria, and weeds which are harmful to plants or crops. | ||||||
| 100 | 農作物における有害生物の防除方法 | JP2016174382 | 2016-09-07 | JP2017019840A | 2017-01-26 | 定 由直 |
| 【課題】農作物の栽培地の有害生物防除において優れた効果を発揮する方法を提供。 【解決手段】農作物の栽培地における有害生物の防除方法で、(1)農作物種子に、化合物群Aより選択される1種以上の化合物を処理する工程、(2)前記工程で得られた農作物種子を播種する前、播種すると同時、及び/又は播種した後に、エチル[3−[2−クロロ−4−フルオロ−5−(1−メチル−6−トリフルオロメチル−2,4−ジオキソ−1,2,3,4−テトラヒドロピリミジン−3−イル)フェノキシ]−2−ピリジルオキシ]アセテートを農作物の栽培地に処理する工程並びに(3)農作物の生育期に、化合物群Bより選択される1種以上の化合物により農作物の茎葉を処理する工程、を含む有害生物の防除方法。化合物群A:ネオニコチノイド系化合物、ジアミド系化合物、アゾール系化合物等から成る群、化合物群B:ストロビルリン系化合物、アゾール系化合物等から成る群 【選択図】なし |
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