WO2018154260A1 - Entretien d'une pluralité de plantes - Google Patents

Entretien d'une pluralité de plantes Download PDF

Info

Publication number
WO2018154260A1
WO2018154260A1 PCT/GB2017/050451 GB2017050451W WO2018154260A1 WO 2018154260 A1 WO2018154260 A1 WO 2018154260A1 GB 2017050451 W GB2017050451 W GB 2017050451W WO 2018154260 A1 WO2018154260 A1 WO 2018154260A1
Authority
WO
WIPO (PCT)
Prior art keywords
plant
maintenance
information
service
fruit
Prior art date
Application number
PCT/GB2017/050451
Other languages
English (en)
Inventor
Mustafa WAREOSH
Hassan HILOU
Original Assignee
Wareosh Mustafa
Hilou Hassan
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Wareosh Mustafa, Hilou Hassan filed Critical Wareosh Mustafa
Priority to PCT/GB2017/050451 priority Critical patent/WO2018154260A1/fr
Publication of WO2018154260A1 publication Critical patent/WO2018154260A1/fr

Links

Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G17/00Cultivation of hops, vines, fruit trees, or like trees
    • A01G17/005Cultivation methods
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G7/00Botany in general
    • A01G7/06Treatment of growing trees or plants, e.g. for preventing decay of wood, for tingeing flowers or wood, for prolonging the life of plants
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G23/00Forestry
    • A01G23/02Transplanting, uprooting, felling or delimbing trees
    • A01G23/095Delimbers

Definitions

  • This invention relates to a method of managing the maintenance of a plurality of plants, an assembly for managing the maintenance of a plurality of plants, and a plant service machine for use in the maintenance of a plant.
  • a plant undergoes several stages of growth prior to harvest. At each stage a specific maintenance service may be performed on the plant.
  • a method of managing the maintenance of a plurality of plants wherein the maintenance of each plant is based on a plurality of maintenance services comprising the steps of:
  • Plant characteristics such as plant age, plant type, plant location and so on, may vary among a plurality of plants located in the same area, which may be a field or an orchard. Such variation in plant characteristics may result in different plants of the plurality of plants to be, at any given time, undergoing different stages of growth that respectively require different maintenance services.
  • the method of the invention allows the plant information about each plant of the plurality of plants to be taken into account in order to arrange the maintenance schedule prior to the performance of the determined maintenance services, thus providing the plurality of plants with timely and efficient maintenance. This not only ensures that each plant of the plurality of plants receives the required determined maintenance service on time, thus improving the well-being of each plant, but also improves the overall efficiency of the maintenance of the plurality of plants, which leads to time and cost savings.
  • the plurality of plant maintenance tools includes a range of plant maintenance tools, where the configuration of each plant maintenance tool depends on the respective type of maintenance service. It will be appreciated that a given plant maintenance tool may be in the form of a plant maintenance attachment.
  • the plurality of maintenance services may include trimming.
  • the corresponding plant maintenance tool may be a trimming tool configured to trim a plant to, for example, remove dead leaves and/or dead branches.
  • the plurality of maintenance services may include spraying.
  • the corresponding plant maintenance tool may be a spraying tool configured to spray chemicals onto a plant.
  • the plurality of maintenance services may include crop or fruit bunch pollination.
  • the corresponding plant maintenance tool may be a pollination tool configured to spread pollination granular to the crops or fruit bunches of the plant.
  • the plurality of maintenance services may include crop or fruit bunch thinning.
  • the corresponding plant maintenance tool may be a thinning tool configured to remove excess crops or excess fruits in the fruit bunch. This permits the size and quality of individual crops and fruits to be improved while maintaining the overall weight of the harvested crops or fruit bunch.
  • the plurality of maintenance services may include crop, fruit or fruit bunch supporting.
  • the corresponding plant maintenance tool may be a supporting tool configured to support the weight of the crop, fruit or fruit bunch while it is still attached to the plant.
  • the plurality of maintenance services may include crop, fruit or fruit bunch bagging.
  • the corresponding plant maintenance tool may be a bagging tool configured to transfer the crop, fruit or fruit bunch into a protective bag. This protects the crop, fruit or fruit bunch from birds, insects and dust prior to harvest.
  • the plurality of maintenance services may include crop, fruit or fruit bunch harvesting.
  • the corresponding plant maintenance tool may be a harvesting tool which includes: a removal equipment, e.g. a cutting implement, configured to remove the crop, fruit or fruit bunch from the plant; and collection equipment, e.g. a basket, to receive and collect the removed crop, fruit or fruit bunch.
  • the plurality of maintenance services may include treating a plant disease and/or treating a plant infestation.
  • the corresponding plant maintenance tool may be a spraying tool configured to spray chemicals onto a plant in order to treat the plant disease and/or the plant infestation.
  • the method of the invention may take into account a range of plant information when determining the type and time of the next maintenance service for each plant and arranging the maintenance schedule.
  • the plant information about each plant may include plant type. This is because the plurality of plants may include different types of plants which increases the likelihood of the plurality of plants being at different stages of growth and thereby requiring different types of maintenance services.
  • the plant information about each plant may include plant age. This is because a given plant may be planted at a different time from one or more other plants due to, for example, the need to replace a previous plant or due to the expansion of the plurality of plants to further include newer plants.
  • the plant information about each plant may include location information of the plant.
  • the location information may include location coordinates, such as Global Positioning System (GPS) coordinates.
  • GPS Global Positioning System
  • the location information makes it easier to build an overview of the plurality of plants that includes an individual profile of each plant of the plurality of plants, which improves the arrangement of the maintenance schedule by associating the type and time of the next maintenance service for each plant with the respective location information.
  • the plant information about each plant may include recorded image information of the plant.
  • the recorded image information provides visual information on the status of each plant, which can be reviewed at any time without having to undergo the time-consuming process of physically visiting each plant. Also, the recorded image information can be reviewed using image enhancement software and/or image processing software to improve the steps of determining the type and time of the next maintenance service for each plant and arranging the maintenance schedule.
  • the plant information about each plant may include the type of the last maintenance service performed on the plant.
  • the plant information about each plant may include the time of the last maintenance service performed on the plant.
  • the plant information about each plant may include the number of crops, fruits or fruit bunches previously harvested from the plant.
  • the plant information about each plant may include the age of the present crops, fruits or fruit bunches of the plant.
  • the plant information about each plant may include the number of the present crops, fruits or fruit bunches of the plant that are ready for maintenance. This information provides useful data that may be taken into account when arranging the maintenance schedule in order to accurately determine the type and time of the next maintenance service for each plant.
  • the plant information about each plant may include plant disease and/or plant infestation.
  • arranging the maintenance schedule of the performance of the respective determined maintenance service on each plant may include determining the order of priority of performing the determined maintenance services on the respective plants. The order of priority may depend on the relative importance of the determined maintenance services for different plants and/or on the required timing of the respective determined maintenance service for each plant.
  • arranging the maintenance schedule of the performance of the respective determined maintenance service on each plant may include optimising the order of performing the determined maintenance services on the respective plants.
  • optimising the order of performing the determined maintenance services on the respective plants it is possible to improve the overall efficiency of the maintenance of the plurality of plants.
  • the order of performing the determined maintenance services on the respective plants may be optimised in different ways to achieve different goals.
  • arranging the maintenance schedule of the performance of the respective determined maintenance service on each plant may include optimising the order of performing the determined maintenance services on the respective plants in order to:
  • the step (b) may further include using a processor to process the plant information to: determine based on the plant information which of the plurality of maintenance services is required by each plant; to determine based on the plant information when each plant requires the respective determined maintenance service; and to arrange the maintenance schedule based on the plant information.
  • the use of the processor in this manner provides a degree of automation to the method of the invention, which result in further efficiency improvements.
  • the method may further include the steps of: providing a plant service machine that includes a control unit; providing the plant service machine with the plurality of plant maintenance tools; and using the control unit to operate the or each selected plant maintenance tool to perform the corresponding determined maintenance service on the corresponding plant in accordance with the maintenance schedule.
  • the use of a plant service machine reduces the amount of manual labour required to carry out the selection and operation of the plurality of plant maintenance tools.
  • the control unit may be a mobile device, such as a laptop, a smartphone and a tablet. The capabilities of the mobile device provides added functionality to the operation of the plant service machine.
  • the plant service machine may include an information display unit, which allows the method of the invention to further include the step of communicating the maintenance schedule to the information display unit. This advantageously allows an operator of the plant service machine to remotely access the maintenance schedule via the information display unit.
  • the information display unit may be a mobile device, such as a laptop, a smartphone and a tablet.
  • control unit and information display unit may be the same unit.
  • the method may further include the step of transporting the plant service machine to each plant in accordance with the maintenance schedule, wherein the maintenance schedule includes a route to be followed when transporting the plant service machine to each plant. This step allows the method of the invention to be applied to a plurality of plants in which multiple plants are respectively placed in different locations.
  • the method of the invention permits the location information of each plant to be taken into account in the arrangement of the maintenance schedule. This ensures that the plant service machine is transported to the correct plant at the correct time to perform the desired determined maintenance service.
  • the method may include the step of transporting the plant service machine to each plant based on the determined order of priority and/or based on the optimised order.
  • the method may include the steps of: determining the optimal route for transporting the plant service machine to each plant to minimise overall time and/or overall distance taken to transport the plant service machine to each plant; and transporting the plant service machine to each plant based on the optimal route. This has the result of further improving the overall efficiency of the maintenance of the plurality of plants for additional time and cost savings.
  • the method may include the steps of: providing a transporter that includes a power source; operating the transporter to transport the plant service machine to each plant in accordance with the maintenance schedule; and configuring the power source to supply power to the plant service machine.
  • Using the power source of the transporter to power the plant service machine removes the need to transport a separate power source, such as a generator, with the plant service machine.
  • the transporter may be, but is not limited to, a tractor or utility vehicle.
  • the method may include the step of providing a plurality of plant service machines.
  • Providing a plurality of plant service machines advantageously reduces the overall time taken to perform the determined maintenance services on the plants by, for example, using multiple plant service machines to simultaneously service multiple plants and/or by using multiple plant service machines configured with different selected plant maintenance tools.
  • the management of the maintenance of the plurality of plants may be carried out based on recorded image information of each plant.
  • the method may further include the step of using an image recording device to obtain the recorded image information of each plant.
  • Using an image recording device to obtain the recorded image information of each plant may include providing an aerial drone with the image recording device and operating the aerial drone.
  • the aerial drone is capable of covering a wide area in a short amount of time and thereby enables the speedy collection of the recorded image information of the plurality of plants using the image recording device.
  • An example of an aerial done is a quadcopter.
  • the method may further include the step of providing the plant service machine with the image recording device.
  • This not only allows the image recording device to obtain the recorded image information about a given plant when the plant service machine is being used to service the given plant, but also enables an operator to monitor the performance of the determined maintenance service, especially when the plant is significantly taller than the operator.
  • the method of the invention may employ the use of multiple image recording devices.
  • the aerial drone may be provided with a first image recording device while the plant service machine may be provided with a second image recording device.
  • the method may further include the step of updating the plant information about each plant.
  • updating the plant information about each plant includes updating the plant information about a given plant of the plurality of plants after performing the corresponding determined maintenance service on the given plant. This ensures that the steps of determining the type and time of the next maintenance service for each plant and arranging the maintenance schedule are based on up-to-date information.
  • Updating the plant information about each plant may include using the image recording device to obtain updated recorded image information of each plant.
  • each plant may be in the form of a tree which may be, but is not limited, to a date palm tree.
  • an assembly for managing the maintenance of a plurality of plants wherein the maintenance of each plant is based on a plurality of maintenance services the plant service machine comprising: a plant service machine including a plurality of plant maintenance tools and a control unit, each plant maintenance tool corresponding to a respective one of the plurality of maintenance services; and
  • control base programmed to receive plant information, the control base further programmed to: determine based on plant information about each plant which of the plurality of maintenance services is required by each plant; to determine based on plant information about each plant when each plant requires the respective determined maintenance service; and to, based on the plant information, arrange a maintenance schedule of the performance of the respective determined maintenance service on each plant,
  • control unit is configured to be usable to operate each plant maintenance tool to perform the corresponding determined maintenance service on the corresponding plant in accordance with the maintenance schedule.
  • control base may be programmed to determine the order of priority of performing the determined maintenance services on the respective plants when arranging the maintenance schedule of the performance of the respective determined maintenance service on each plant.
  • control base may be programmed to optimise the order of performing the determined maintenance services on the respective plants when arranging the maintenance schedule of the performance of the respective determined maintenance service on each plant.
  • control base may be programmed to optimise the order of performing the determined maintenance services on the respective plants in order to:
  • the control base may include a processor configured to process the plant information to: determine based on plant information about each plant which of the plurality of maintenance services is required by each plant; to determine based on plant information about each plant when each plant requires the respective determined maintenance service; and to, based on the plant information, arrange a maintenance schedule of the performance of the respective determined maintenance service on each plant.
  • the plant service machine may include an information display unit.
  • the control base may be programmed to communicate the maintenance schedule to the information display unit.
  • the information display unit may be a mobile device that is configured to communicate wirelessly with the control base.
  • the assembly may further include a transporter configured to transport the plant service machine to each plant in accordance with the maintenance schedule, and the maintenance schedule includes a route to be followed when transporting the plant service machine to each plant.
  • the transporter may be configured to transport the plant service machine to each plant based on the determined order of priority and/or based on the optimised order.
  • the control base may be programmed to determine the optimal route for transporting the plant service machine to each plant to minimise overall time and/or overall distance taken to transport the plant service machine to each plant.
  • the transporter may be configured to transport the plant service machine to each plant based on the optimal route.
  • the transporter may include a power source that is configured to supply power to the plant service machine.
  • the transporter may be, but is not limited to, a tractor or utility vehicle.
  • the assembly may include a plurality of plant service machines.
  • the assembly may further include an image recording device configured to obtain the recorded image information of each plant.
  • the image recording device may be configured to provide the recorded image information to the control base either through wireless communication or direct transfer from the image recording device to the control base.
  • the image recording device may be provided on an aerial drone. Alternatively the image recording device may be provided on the plant service machine.
  • the control base may be programmed to permit updating of the plant information about each plant.
  • the control base may be programmed to permit updating of the plant information about a given plant of the plurality of plants after the corresponding determined maintenance service is performed on the given plant.
  • the image recording device may be configured to obtain updated recorded image information of each plant.
  • the image recording device may be configured to provide the updated recorded image information to the control base.
  • a plant service machine for use in the maintenance of a plant
  • the plant service machine comprising; a machine body; and a climbing mechanism for climbing a plant
  • the climbing mechanism includes: a plurality of rotatable rolls arranged to, in use, grip the plant; and an actuator configured to, in use, rotate each roll to move the machine body up and down the plant.
  • the inclusion of the plurality of rotatable rolls in the climbing mechanism enables the climbing mechanism to apply a strong grip on the plant due to the grip surface area provided by the shape of the rotatable rolls. This in turn increases the payload that can be supported by the climbing mechanism while it climbs up and down the plant.
  • Each rotatable roll may be ribbed and/or concave. This further improves the ability of the rotatable rolls to grip the plant.
  • the machine body may be configured to be capable of supporting one or more persons when moving up and down the plant.
  • the machine body may include a platform configured to be capable of carrying one or more persons up and down the plant. This allows the or each such person to perform a maintenance service on parts of the plant, such as the top of the plant, that would normally be unreachable from the ground.
  • a plant service machine for use in the maintenance of a plant, the plant service machine comprising; a machine body; and a plant maintenance tool in the form of a plant trimmer, wherein the plant trimmer includes a laser configured to, in use, to trim the plant.
  • the inclusion of a laser-based plant trimmer in the plant service machine enables the plant service machine to provide faster cutting speed with lower power requirements when compared to a mechanical trimmer, such as a band saw or a jig saw.
  • the plant service machine may further include an actuator, where the laser is provided on the actuator.
  • the actuator may be configured to, in use, move the laser to track a path about the plant. This enables the plant trimmer to efficiently carry out the trimming of the plant, which may involve trimming of dead leaves and/or dead branches located at different positions around the plant.
  • Figure 1 shows an assembly according to an embodiment of the invention
  • Figure 2 show a climbing mechanism of the date palm service machine of the assembly shown in Figure 1 ;
  • Figure 3 shows the operation of the date palm service machine to climb a date palm tree;
  • Figure 4 shows an exemplary maintenance schedule of the performance of maintenance services on a plurality of date palm trees
  • Figures 5 to 11 show the performance of maintenance services on a date palm tree.
  • Figure 1 shows a date palm orchard comprising a plurality of date palm trees.
  • the date palm orchard of Figure 1 consists of fifteen date palm trees in a three columns by five rows arrangement.
  • a date palm orchard typically includes hundreds of trees or more.
  • a date palm tree typically has the following characteristics: a total height reaching 35 m; a vegetative age of 100 years; tree roots that can reach into the soil to a depth of more than 15 m; the ability to bear drought conditions for 6 months; and the ability to bear temperatures of -5 °C to 65 °C.
  • the date palm tree also normally has the ability to produce 3-15 date fruit bunches and a total harvest yield of 250 kg. It typically needs to be climbed at least six times for optimal harvest yield, and the trimming of a date palm tree normally takes 20-30 minutes if performed by a professional worker.
  • a date palm tree undergoes several stages of growth throughout the year and thereby requires seven main maintenance services, which are described as follows with reference to Middle East weather: 1) Trimming: From November to March, the date palm tree undergoes trimming to trim all dead leaves beneath the tree canopy in order to encourage general growth and to prevent insects from living inside the pores of the dead leaves.
  • Thinning From May to June, excess fruits are removed from the date fruit bunches of the date palm tree to improve the size and quality of individual fruits while maintaining the overall weight of each date fruit bunch.
  • Supporting From May to July, each date fruit bunch is attached to another part of the plant, such as a leaf, to support the weight of the date fruit bunch.
  • each date fruit bunch is bagged in protective cloth or mesh bags to prevent birds, insects and dust from spoiling the date fruit bunches prior to harvest.
  • Date palm tree characteristics may vary among the plurality of date palm trees located in the same orchard.
  • some or all of the plurality of date palm trees in the same orchard may be affected by a plant disease or a plant infestation. This means that different date palm trees located in different parts of the orchard 20 may require different maintenance services at different times.
  • the assembly comprises a date palm service machine 22, a transporter 24, a control base 26, and an aerial drone (not shown).
  • the date palm service machine 22 includes a machine body 28 and a plurality of maintenance attachments. Each maintenance attachment corresponds to a respective one of the plurality of maintenance services for the date palm tree. In use, each date palm maintenance attachment can be installed on the machine body 28 of the date palm service machine 22 when selected to perform the respective maintenance service.
  • the plurality of maintenance attachments includes a trimming attachment 30, a pollination attachment 32, a thinning attachment 34, a supporting attachment 36, a bagging attachment 38, a harvesting attachment 40, and a spraying attachment 42, as respectively shown in Figures 5 to 11.
  • the trimming attachment 30 includes a laser 44 configured to, in use, to trim the dead leaves 46 of the date palm tree.
  • the laser 44 is mounted on an actuator that is configured to, in use, move the laser 44 to track a path about the date palm tree in order to enable the laser 44 to trim dead leaves 46 around the date palm tree, while avoiding the live leaves 48.
  • the actuator may be in the form of a moving cart that moves along a track mounted on the machine body 28 of the date palm service machine 22.
  • the pollination attachment 32 includes a pollination granular storage tank 50, and a blower 52 to blow pollination granular from the storage tank 50 to the female date fruit bunches 54.
  • the blower 52 is mounted on an actuator that is configured to, in use, move the blower 52 to track a path 56 about the date palm tree in order to enable the blower 52 to target female date fruit bunches 54 around the date palm tree.
  • the actuator may be in the form of a moving cart that moves along a track mounted on the machine body 28 of the date palm service machine 22.
  • the thinning attachment 34 includes a cutting implement 58 to cut the stems of individual date fruits from a date fruit bunch 60.
  • the cutting implement may be attached to a robotic arm that is directly or wirelessly controlled by a control unit.
  • the supporting attachment 36 includes a yoke 62 to direct a date fruit bunch to the nearest leaf 64, and a cable tie 66 to tie the stem 68 of the date fruit bunch to be supported by the nearest leaf 66.
  • the bagging attachment 38 includes a yoke 70 to direct a date fruit bunch 72 into a protective cloth or meshed bag 74.
  • the harvesting attachment 40 includes a cutting implement 76 to cut the stem 78 of a date fruit bunch 80 from the date palm tree, and also includes a basket 82 that is positioned to surround the date palm tree to receive and collect removed date fruit bunches 80 so as to prevent damage to the date fruit bunches 80 resulting from them falling directly to the ground.
  • the spraying attachment 42 includes a tank 84 storing liquid chemicals, an injection pump 86, and a spraying boom 88 with a spray nozzle 90.
  • the injection pump 86 is operated to pump liquid chemicals from the tank 84 into the spray boom 88, and the spraying nozzle 90 is raised to an appropriate height above the canopy of the date palm tree to release a spray of liquid chemicals 92 onto the leaves of the date palm tree.
  • the spraying attachment 42 can be used to prevent or treat plant diseases and plant infestations. It will be appreciated that, where different maintenance attachments includes the same feature, that same feature may be shared between the different maintenance attachments.
  • the cutting implement 58 of the thinning attachment 36 may be the same as the cutting implement 76 of the harvesting attachment 38.
  • the date palm service machine 22 also includes a climbing mechanism 94 for climbing a date palm tree.
  • the climbing mechanism 94 includes two sets of rotatable ribbed, concave rolls 96, where each set includes a respective linear arrangement of the rotatable rolls 96, as shown in Figure 2.
  • the two sets of rotatable rolls 96 are opposingly arranged and spaced apart so as to enable the two sets of rotatable rolls 96 to, in use, respectively grip opposite sides of the trunk 98 of the date palm tree.
  • the climbing mechanism 94 further includes a plurality of belts 100, where each belt 100 is coupled to a respective one of the sets of rotatable rolls 96 such that each belt 100 may be driven to rotate the corresponding rotatable rolls 96.
  • the machine body 28 may be configured to be capable of supporting one or more persons when moving up and down the date palm tree.
  • the machine body 28 may include a platform that can support the weight of one or more persons, so that the machine body 28 can carry the or each such person up and down the date palm tree.
  • the belt 100 may be replaced by another type of actuator that is configured to, in use, rotate each rotatable roll to move the machine body 28 up and down the date palm tree.
  • the date palm service machine 22 further includes a mobile device 102 with a display screen 104, such as a laptop, a smartphone and a tablet.
  • the mobile device 102 not only acts as a control unit that includes software programmed to enable an operator 106 to control each maintenance attachment and the climbing mechanism 94, but also acts as an information display unit.
  • a first camera 108 is mounted on the machine body 28 to allow the recording of image information of the date palm tree when the date palm service machine 22 is servicing the plant, to enable an operator 106 to monitor the servicing of the date palm tree, and to enable the operator 106 to monitor the climbing mechanism 94 when it climbs the trunk of the date palm tree.
  • the first camera 108 is configured to provide the recorded image information to the mobile device 102 via wireless communication and/or direct transfer.
  • the assembly may include a plurality of date palm service machines 22, instead of a single date palm service machine 22.
  • the transporter 24 is in the form of an agriculture tractor, but in other embodiments may be in the form of other types of vehicles, such as a utility vehicle.
  • the transporter 24 is configured to be capable of carrying and transporting the date palm service machine 22 to each plant in the date palm orchard 20.
  • the tractor may be configured as a power source to supply power to a motor 110 of the date palm service machine 22.
  • the date palm service machine 22 may have its own power source, such as a generator.
  • the control base 26 comprises a server computer that is programmed to receive and process plant information about each date palm tree.
  • the plant information about each date palm tree includes:
  • the computer compiles the received plant information to build an overview of the date palm orchard 20 in which a respective unique identifier (e.g. a serial number Tn, Ti 2 , . . .,T35) is assigned to each date palm tree and in which each unique identifier is associated with an individual profile of each date palm tree that includes the corresponding plant information.
  • a respective unique identifier e.g. a serial number Tn, Ti 2 , . . .,T35
  • the overview of the date palm orchard 20 based on the compiled plant information is utilised by the server computer to determine the type and time of the next maintenance service required by each date palm tree.
  • the steps of determining the type and time of the next maintenance service required by each date palm tree may involve reviewing the recorded image information, which provide visual information on the status of each date palm tree, using image enhancement software and/or image processing software.
  • the recorded image information may include a 360° view of the date palm tree which could be compiled by, for example, using multiple images each of which covers a 60° view of the date palm tree.
  • the server computer may be configured to diagnose any plant disease and any plant infestation affecting each date palm tree when reviewing the recorded image information.
  • the server computer may be configured to include image processing software designed to diagnose any plant disease and any plant infestation by comparing the recorded information obtained over a period of time, and/or the server computer may be configured to permit a user to diagnose any plant disease and any plant infestation by manually comparing the recorded information obtained over a period of time.
  • the server computer After the type and time of the next maintenance service required by each date palm tree has been determined, the server computer arranges a maintenance schedule of the performance of the respective determined maintenance service on each plant.
  • the operator 106 may manually perform the steps of determining the type and time of the next maintenance service required by each date palm tree and arranging the maintenance schedule by manually reviewing the compiled plant information.
  • the maintenance schedule includes the GPS coordinates of each date palm tree to indicate where the date palm service machine 22 needs to be at any given time to perform the desired determined maintenance service on a particular date palm tree.
  • the GPS coordinates for the plurality of date palm trees are used to design a route to be followed by the transporter 24 when it transports the date palm service machine 22 around the date palm orchard 20.
  • the maintenance schedule includes an optimal route for transporting the date palm service machine 22 to each date palm tree to minimise overall time and/or overall distance taken to transport the date palm service machine 22 around the date palm orchard 20.
  • the maintenance schedule may include an order of priority of performing the determined maintenance services on the respective date palm trees.
  • the order of priority may depend on the relative importance of the determined maintenance services for different date palm trees and/or on the required timing of the respective determined maintenance service for each date palm tree.
  • the order of priority may be displayed by the server computer using indicators such as Normal, Urgent and Very Urgent.
  • An example of a maintenance schedule including an order of priority is shown in Figure 4.
  • Preferably any date palm tree affected by a plant disease or plant infestation may be given a higher position in the order of priority.
  • the maintenance schedule may be arranged to optimise the order of performing the determined maintenance services on the respective date palm trees to improve the overall efficiency of the maintenance of the date palm orchard 20.
  • the order may be optimised to minimise overall time taken to perform the determined maintenance services on the respective date palm trees, maximise the quality of date fruit bunch yield harvested from the date palm trees and/or maximise the quantity of date fruit bunch yield harvested from the date palm trees.
  • the inclusion of the order of priority and/or the optimised order in the maintenance schedule affects the route to be followed by the transporter 24 when it transports the date palm service machine 22 around the date palm orchard 20.
  • the information available in the maintenance schedule may be utilised by the control base 26 to provide an estimate of the amount of time required for each maintenance service.
  • the information available in the maintenance schedule may also be utilised by the control base 26 to provide an estimate of the amount of time and the number of date palm service machines 22 required to service the entire date palm orchard 20.
  • the server computer is configured to communicate wirelessly with the mobile device 102 of the date palm service machine 22. This allows the mobile device 102 to send recorded image information to the server computer, which can be used to update the individual profile of each plant. This also allows the server computer to dispatch the maintenance schedule to the mobile device 102, which can then be configured to display the maintenance schedule to the operator 106 of the date palm service machine 22. This advantageously allows the operator 106 to view the maintenance schedule even when the operator 106 and the date palm service machine 22 are located far away from the control base 26.
  • the aerial drone is in the form of a quadcopter.
  • a second camera is mounted on the aerial drone, and is configured to obtain recorded image information about each date palm tree as the aerial drone is operated to fly around the date palm orchard 20.
  • the aerial drone is dispatched to the GPS coordinates of each date palm tree to enable the second camera to obtain the recorded image information.
  • the recorded image information about each date palm tree can be associated with the GPS coordinates when building the individual profile of each date palm tree.
  • the second camera is configured to provide the recorded image information to the server computer via wireless communication and/or direct transfer.
  • the aerial drone may be used to obtain recorded image information about each date palm tree on a regular basis, e.g. every day.
  • the operator 106 uses the mobile device 02 to review the maintenance schedule to check the determined maintenance service for a particular date palm tree, and selects the appropriate maintenance attachment for the determined maintenance service. Thereafter the operator 106 drives the transporter 24 to transport the date palm service machine 22 to the GPS coordinates of the particular date palm tree in accordance with the route and timing set out in the maintenance schedule. After arriving at the particular date palm tree, the operator 106 then arranges the climbing mechanism 94 to grip the date palm tree before using the mobile device 102 to operate the climbing mechanism 94 to move the machine body 28 up the trunk of the date palm tree. When the machine body 28 is at the desired height, the operator 106 uses the mobile device 102 to operate the selected maintenance attachment to perform the corresponding determined maintenance service on the date palm tree as dictated by the maintenance schedule.
  • the or each person may be carried up the date palm tree by the climbing mechanism 94 so that the or each such person can manually operate the selected maintenance attachment to perform the corresponding determined maintenance service on the date palm tree as dictated by the maintenance schedule.
  • Figures 5 to 11 respectively show the performance of the trimming, spraying, pollination, thinning, supporting, bagging and harvesting services.
  • the operator 106 uses the first camera 108 to monitor the operation of the date palm service machine 22 and to obtain updated recorded image information of the date palm tree. After completing the determined maintenance service and obtaining the updated recorded image information about the date palm tree, the operator 106 uses the mobile device 102 to operate the climbing mechanism 94 to move the machine body 28 down the trunk of the date palm tree. The operator 106 then sends the updated recorded image information to the control base 26, which then updates the individual profile for the particular date palm tree.
  • the aerial drone may be operated to obtain the updated recorded image information of the date palm tree.
  • the operator 106 then drives the transporter 24 to transport the date palm service machine 22 to the GPS coordinates of the next date palm tree in accordance with the route and timing set out in the maintenance schedule. At this time it may be necessary to select another maintenance attachment if the next plant requires a different maintenance service.
  • the maintenance of the plurality of date palm trees in the date palm orchard 20 is organised in accordance with the maintenance schedule, which takes into account the plant information about each date palm tree in order to provide the plurality of date palm trees with timely and efficient maintenance.
  • This not only ensures that each date palm tree in the orchard 20 receives the required determined maintenance service on time, thus improving the well-being of each date palm tree, thus improve yield quality and quantity, but also improves the overall efficiency of the maintenance of the plurality of date palm trees, which leads to time and cost savings.

Landscapes

  • Life Sciences & Earth Sciences (AREA)
  • Botany (AREA)
  • Environmental Sciences (AREA)
  • Biodiversity & Conservation Biology (AREA)
  • Ecology (AREA)
  • Forests & Forestry (AREA)
  • Engineering & Computer Science (AREA)
  • Wood Science & Technology (AREA)
  • Management, Administration, Business Operations System, And Electronic Commerce (AREA)

Abstract

L'invention concerne un procédé de gestion de l'entretien d'une pluralité de plantes (20), l'entretien de chaque plante étant fondé sur une pluralité de services d'entretien. Le procédé comprend les étapes consistant : (a) à fournir des informations de plante concernant chaque plante de la pluralité de plantes (20) ; (b) à déterminer, sur la base des informations de plante, quel service d'entretien de la pluralité de services d'entretien est requis par chaque plante, et à déterminer, sur la base des informations de plante, quand chaque plante requiert le service d'entretien déterminé respectif ; (c) sur la base des informations de plante, à arranger un programme d'entretien des performances du service d'entretien déterminé respectif sur chaque plante ; (d) à sélectionner, parmi une pluralité d'outils d'entretien de plante, l'outil d'entretien de plante correspondant au service d'entretien déterminé requis par chaque plante ; et (e) à faire fonctionner l'outil d'entretien de plante sélectionné ou chaque outil d'entretien de plante sélectionné afin d'effectuer le service d'entretien déterminé correspondant sur la plante correspondante conformément au programme d'entretien.
PCT/GB2017/050451 2017-02-22 2017-02-22 Entretien d'une pluralité de plantes WO2018154260A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/GB2017/050451 WO2018154260A1 (fr) 2017-02-22 2017-02-22 Entretien d'une pluralité de plantes

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/GB2017/050451 WO2018154260A1 (fr) 2017-02-22 2017-02-22 Entretien d'une pluralité de plantes

Publications (1)

Publication Number Publication Date
WO2018154260A1 true WO2018154260A1 (fr) 2018-08-30

Family

ID=58413137

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/GB2017/050451 WO2018154260A1 (fr) 2017-02-22 2017-02-22 Entretien d'une pluralité de plantes

Country Status (1)

Country Link
WO (1) WO2018154260A1 (fr)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102018123755A1 (de) * 2018-09-26 2020-03-26 Petra Jordan Vorrichtung zum Aufbringen eines Behandlungsmittels auf den entasteten Stamm eines stehenden, vorzugsweise lebenden Baumes
IL291800A (en) * 2022-03-29 2022-12-01 Palm Robotics Ltd Aerial spectral system and method, for detecting infection of the red palm weevil in palm trees

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20060213167A1 (en) * 2003-12-12 2006-09-28 Harvey Koselka Agricultural robot system and method
US20100010854A1 (en) * 2007-03-30 2010-01-14 Fujitsu Limited Farm work management system, farm work management apparatus, and farming management method
US8517066B1 (en) * 2012-08-21 2013-08-27 Vandypalm, Inc. Multi-axis controlled self-climbing tree trimmer
US20140110021A1 (en) * 2012-10-24 2014-04-24 David H. Divine Robotic Tree Trimmer And Cutter

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20060213167A1 (en) * 2003-12-12 2006-09-28 Harvey Koselka Agricultural robot system and method
US20100010854A1 (en) * 2007-03-30 2010-01-14 Fujitsu Limited Farm work management system, farm work management apparatus, and farming management method
US8517066B1 (en) * 2012-08-21 2013-08-27 Vandypalm, Inc. Multi-axis controlled self-climbing tree trimmer
US20140110021A1 (en) * 2012-10-24 2014-04-24 David H. Divine Robotic Tree Trimmer And Cutter

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102018123755A1 (de) * 2018-09-26 2020-03-26 Petra Jordan Vorrichtung zum Aufbringen eines Behandlungsmittels auf den entasteten Stamm eines stehenden, vorzugsweise lebenden Baumes
WO2020064059A1 (fr) * 2018-09-26 2020-04-02 Petra Jordan Dispositif permettant d'appliquer un agent de traitement sur le tronc émondé d'un arbre droit, de préférence vivant
IL291800A (en) * 2022-03-29 2022-12-01 Palm Robotics Ltd Aerial spectral system and method, for detecting infection of the red palm weevil in palm trees
IL291800B2 (en) * 2022-03-29 2023-04-01 Palm Robotics Ltd Aerial spectral system and method, for detecting infection of the red palm weevil in palm trees

Similar Documents

Publication Publication Date Title
CN109640620B (zh) 用于种植园农业任务管理和数据收集的系统和方法
AU2005314708B2 (en) Agricultural robot system and method
US7854108B2 (en) Agricultural robot system and method
JP5970751B2 (ja) 成長度合検出装置、植物栽培プラント、成長度合検出方法、植物栽培方法及びプログラム
JP5700748B2 (ja) 植物栽培システム
US11925151B2 (en) Stereo-spatial-temporal crop condition measurements for plant growth and health optimization
US20220156921A1 (en) Data processing platform for analyzing stereo-spatio-temporal crop condition measurements to support plant growth and health optimization
EP3854199B1 (fr) Procédé permettant d'identifier et de collecter des produits agricoles
US11555690B2 (en) Generation of stereo-spatio-temporal crop condition measurements based on human observations and height measurements
JP2013005726A (ja) 情報提供システム、情報提供装置、情報提供方法及びプログラム
WO2018154260A1 (fr) Entretien d'une pluralité de plantes
CA3120674C (fr) Systeme multifonctionnel pour recolte adaptable
WO2022091092A1 (fr) Système et procédé pour la gestion de cultures en intérieur
GB2541868A (en) Maintenance of a plurality of plants
JP2013005724A (ja) 表示制御装置、表示制御システム、表示制御方法及びプログラム
JP7223977B2 (ja) 収穫ロボットシステム
EP3816651B1 (fr) Procédé utilisant une bande ultra large (uwb) et un système uwb pour déterminer l'emplacement d'un objet à l'intérieur d'un environnement de culture de plantes
Zhang Tree fruit production automation.
Zhang et al. Mechanization and automation for apple production
Miao Precision Nutrient Management
Gohil et al. Precision Irrigation for Orchards
Zhang et al. Plant Factory and Soilless Culture
Au et al. Path Planning for Robotic Harvesting

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 17713756

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 17713756

Country of ref document: EP

Kind code of ref document: A1