WO2022118095A1 - Hamed fd: farming, ai-based doctor for all - Google Patents

Abstract

It is the time to monitor plants completely automatically, by artificial intelligence means (AI-Based), to watch the plants during growing up [Fig. 1]. This system, HAMED FD, is a comprehensive one to do this and to help all the people around the world or even universe, when travelling to Moon or Mars for instance, disregarding of their race, religion, wealth, etc. It also could be useful for those that are in distant places without accessing to specialists (e.g. farmers), those who live in poor areas or those who travel to distant places without accessing to any specialist. HAMED FD is a completely automatic doctor for all plants (and also seeds) using artificial intelligence means (AI-Based). HAMED FD can help clients to know the best plants/seeds for agriculture in the farms, to watch and control plants/seeds and pests (if any), to control the quantity and quality of water, minerals, pesticides, and so on, and to identify/control if the plants/seeds are growing up normally and productively without human assistance (e.g. farmer help), and if soil, water and environmental conditions in which the plants are (or will be) cultivated have the requirements/benefits for cultivating the plants or seeds. HAMED FD can be used for all kind of plants and seeds. Providing that HAMED FD will be used globally, cultivated and harvested plants can be monitored around the world and some useful information (like availability of certain plants in the case of needs for medical purposes or people's daily consumption in different areas) can be obtained and managed. Thereby, HAMED FD can estimate required future needs like human resources and other facilities to handle different situations before they actually would be happened. As shown in [fig. 1], FD.DATABASE Unit stores all the data required for HAMED FD, and FD.ALGORITHMS Unit represents the correct forms of plants in different stages, from seeds to productive plants, with regard to their pests and pesticides, their needed water, soil and minerals, their needed costs and proposed revenues, and the environmental conditions in which the plants are growing in order to be controlled more easily in FD.AIU Unit for further analysis. FD.DATABASE and FD.ALGORITHMS units shape the first stream reaching FD.AIU Unit. The second stream includes FD.INPUTS and FD.PROCESSING units which then are joined to the first stream and connected to FD.AIU Unit. FD.AIU is the heart of the system and is responsible to detect best plants/seeds for agriculture in the farms, and to automatically control properties (e.g. type, shape, quantity, quality) of plants and seeds, soil, water and minerals, pests, their damages, and related pesticides, and the environmental conditions in which the plants and seeds are cultivating and growing in order to maintain/enhance growth quality and productivity of the plants/seeds (analyzing the output of FD.PROCESSING Unit with regard to FD.DATABASE and FD.ALGORITHMS units). The next step of HAMED FD is to tell the results to the clients via FD.COMM Unit. Ultimately, there are some sorts of facilities that can be offered by HAMED FD via units named as: FD.CW, FD.RA, FD.SUP, FD.FIN, FD.INSUR, FD.EMP, FD.MARK, FD.LEARN, and FD.MAN. Key words: Farming, Agriculture, Doctor, Artificial Intelligence, AI, Virtual, Instrument, Machine Learning, Pattern Recognition, Statistics, Data Mining, Insurance, Finance, Financing, Store, Learn, Marketing, Management, Business, Administration, Nutrition, Plant, Seed, Pest, Pesticide, Farmer, Soil, Water, Mineral, Supplier.

Description

HAMED FD

Technical Field

[0001] It is the time to monitor plants completely automatically, by artificial intelligence means (Al-Based), to watch the plants during growing up [Fig. 1], This system, HAMED FD, is a comprehensiveone to do this and to help all the people around the world or even universe, when travelling to Moon or Mars for instance, disregarding of their race, religion, wealth, etc. It also could be useful for those that are in distant places without accessing to specialists (e.g. farmers), those who live in poor areas or those who travel to distant places without accessing to any specialist. The benefit of HAMED FD is to propose to the clients best plants/seedsforagriculture in the farms, and to help watching plants when growing up to see if the plants are in good conditions from initial seeds to productive plants. HAMED FD can also monitor damages of pests, soil, waterand environmental conditions in which a plant lives, and can control the quantity and quality of water, minerals, pesticides, and so on automatically. HAM ED FD can be used for all kind of plants and seeds. Providing that HAMED FD will be used globally, cultivated and harvested plants can be monitored around the world and some useful information (like availability of certain plants in the case of needs for medical purposes or people's daily consumption in different areas) can be obtained and managed. Thereby, HAMED FD can estimate required future needs like human resources and other facilities to handle different situations before they actually would be happened .

[0002] First, there is a need for collecting all the data required to manage plants: FD.DATABASE Unit. In this unit, general, specific, pests and pesticides, waterand minerals, and costs and revenues data should be prepared for further analysis. General data contains data of all plants, e.g. shape of them. Unique data of plants cultivated by every single person can be stored as specific data, correct condition of the plants for example. Other data in FD.DATABASE Unit contains: pests which are harmful for each plant, their damages and required pesticides to control the pests, water and soil conditions and minerals that are beneficial for each plant, as well as costs of cultivating of each plant and calculated revenues.

[0003] All the data from FD.DATABASE Unit is sorted and prepared in FD. ALGORITHMS Unit for every single plant in such a way that can show correct forms of plants in different stages, from seeds to productive plants, with regard to their pests and pesticides, their needed water, soil and minerals, their needed costs and proposed revenues, and the environmental conditions in which the plants are growing in order to be controlled more easily in FD.AIU Unit with the information that will be extracted and processed via FD. INPUTS and FD.PROCESSING units. A simplified example of such algorithms is represented in [Fig. 2],

[0004] FD.DATABASE and FD.ALGORITHMS units are designed to classify plants and other related data based on existed knowledge. These units can be the first stream of HAMED FD. The second stream is to analyze plants of clients to get information about them like: seeds, plants, and waterand soil quality and conditions, in addition to the environmental conditions. This stream contains two stages named FD.INPUTS Unitand FD.PROCESSING Unit.

[0005] FD.INPUTS Unit is added to HAMED FD for getting data of plants/seeds, their pests and pesticides, water/soil and environmental conditions directly or indirectly. A person can tell the system some features manually like answers of tests about soil/water quality. In addition, HAMED FD can monitor conditions of plants, seeds, pests and pesticides, water/soil, and the environment of the planted objects by using some electronic devices such as cameras, and special sensors (e.g. infrared, laser measure).

[0006] In FD.PROCESSING Unit, data from FD.INPUTS Unit will be analyzed. The primary purpose of this unit is to check and understand properties (e.g. type, shape) of plants and seeds, soil, water and minerals, pests and their damages, and the environmental conditions in which the plants and seeds are cultivating and growing. It is also feasible to get data (from the FD.INPUTS Unit) before and after a period of time, then, changes in the plants and seeds (or other related information) can be drawn . Other data from FD.INPUTS unit will also be checked and processed, like the data told HAMED FD by the client manually using voice processingtechniques.

[0007] The output of the two streams introduced earlier would then go to the artificial intelligence unit (FD.AIU), those are the output of FD.ALGORITHMS and FD.PROCESSING units. FD.AIU is the heart of the system and is responsible to detect best plants/seeds for agriculture in the farms, and to automatically control properties (e.g. type, shape, quantity, quality) of plants and seeds, soil, water and minerals, pests, their damages and related pesticides, and the environmental conditions in which the plants and seeds are cultivating and growing in order to maintain/enhance growth quality and productivity of the plants/seeds (analyzing the output of FD.PROCESSING Unit with regard to FD.DATABASE and FD.ALGORITHMS units). This matching process can be done using different artificial intelligence techniques like machine learning, pattern recognition, statistics, data mining, and so on. Also, FD.AIU can access to FD.DATABASE Unit and write data gathered from the plants/seeds, the environment and others there, or get any data needed for its main tasks.

[0008] The nextstep of HAMED FD is to tell the results to the clients via FD.COMM Unit. It is preferred to use deep fake for making HAMED FD more realistic. This will help people to contact with the system more easily and feel better contacting with HAMED FD. It can be the face of a person, like myself, or an animation character. Kids may make contacts with animation better. Clients can choose whoever want to be their farming doctor. FD.COMM proposes proper plants for agriculture in the clients' places detected by HAMED FD, and the clients can choose from them or any other desired plants on their correspondence. Besides, FD.COMM Unit can tell the clients the conditions of the plants (or other related issues) they are cultivating and growing. If HAMED FD would detect some deficiencies in cultivating and growing the plants/seeds, FD.COMM Unit will communicate failures detected in FD.AIU Unit and tell necessary and required actions to the clients. For instance, if the shape of leaves of a plant is not normal and HAMED FD detects a pest, required pesticide(s) will be communicated to the client via FD.COMM unit. If the system could not reach a decision due to incomplete or inaccurate data of the plants, seeds or other inputs, FD.COMM will tell the client and the process will be jumped backed to the initial stage, FD.INPUTS. Providing that some further actions (like using pesticide(s)) needed by the clients or detected by the system, HAMED FD can offer some sorts of solutions: continuous watching of the plants/seeds (FD.CW), real assistants' (e.g. farmer's) help (FD.RA), needed instruments or facilities for planting or other tasks (FD.SUP), financing for purchasing instruments or other facilities (FD.FIN), insurance offers (FD.INSUR), needed workforces/employees (FD.EMP), marketing the products (FD.MARK) and learning about plants, seeds, pests, pesticides, soil, minerals and so on (FD. LEARN). The results of all plants and seeds controlled by all the clients can then be gathered in FD.MAN Unit. These units will be described in the following paragraphs. [0009] HAMED FD can offer continuous watching via FD.CW Unit to help clients controlling the plants/seeds and the tasks (mentioned as FD.AIU main tasks) seamlessly and in any places. This feature is very helpful for watching plants/seeds continuously without any helps of humans like farmers.

[0010] In some cases, clients may desire to consult with real assistants (e.g. farmers), or the system cannot reach a decision and need helps from real farmers for instance, so FD.RA Unit is responsible to make connections with real humans and experts. Experts/farmers can also use HAMED FD via FD.RA Unitto get extra information based on the data stored in FD. DATABASE Unit as well as information of their plants/seeds analyzed by HAM ED FD.

[0011] Clients may need some sorts of instruments or facilities to cultivate and grow plants/seeds, thereby, FD.SU P Unit can provide those facilities and instruments directly (using its own delivery system) or by making relationships with other farming companies or stores. This feature can help clients satisfying their needs while using HAMED FD easily, no matterwhere they live.

[0012] FD.FIN Unit can help clients buying their needs like seeds, young trees, and other instruments/facilities by providingfinancing facilities (e.g. loan).

[0013] HAMED FD, via FD.INSUR Unit, can insure clients' facilities (e.g. farms) and employees or make relationships with other insurance companiesto help supporting clients financially if they encounterany issues while using the system.

[0014] FD.EMP Unit is designed to help clients to find any workforces (employees)they may need during the process of cultivating, growing and harvesting plants and products.

[0015] To sell products (e.g. fruits) of HAMED FD, FD.MARK Unit is attached to HAMED FD to help clients for marketing purposes such as evaluating supply and demand for each product, appropriate markets for the products and so on.

[0016] FD.LEARN Unit is a way for clients to learn about different plants, seeds, pests, pesticides, soil, minerals and others for increasing their knowledge or just for entertainment.

[0017] Information of clients at collective level can be gathered and monitored via FD.MAN Unit. It is a whole management unit and is useful to understand societies' information like available plants/seeds, potentials of producing a variety of foods, demands for instruments and other facilities needed for farming and so on. Providing that HAMED FD will be used globally, farming conditions can be monitored around the world and some useful information (like prediction of demands for each product in different areas, appropriate markets for the products and so on) can be obtained and managed. Thereby, HAMED FDcan estimate required future needs like human resources and other facilities to handle different situations before theyactually would be happened.

Background Art

[0018] "System, method, and software for image processing," United States patent US9277141B2, "According to certain embodiments, an image processing system includes a computing system that receives a video signal including data for one or more images and determines a region of interest in a particular image of the one or more images. Usingthe determined region of interest, the computing system instructs the camera to generate a peripheral region of one or more subsequent images having a reduced information intensity level relative to the information intensity level with which the region of interest of the one or more subsequent images are generated. The region of interest of the one or more subsequent images corresponds to the region of interest of the particular image. The peripheral region including portions of the image otherthan the region of interest."

[0019] "Digital image processing," United States pattern US6240217B1, "A method of processing digital image information, including pixel intensity information, includes the steps of identifying a region of the image in which pixel intensities are similar to each other, but the median pixel intensity differs significantly from the median pixel intensity of other parts of the image; and modifying pixel intensities in the identified region so that the median forthe region is closer to the median for the other parts of the image. A related method of processing digital image information involves modifying pixel intensities according to a non-linearalgorithm, with the result that one or more regions of the image have their median pixel intensities adjusted to a level which is closer to the median pixel intensity for other parts of the image. A composite digital image can be formed by obtaining first and second digital images of the same scene but with different exposure or light reception conditions so that one of the digital images has higherpixel intensity values than the other; identifying one or more regions on the first image which are less clear than the corresponding regions on the second image; and replacing the identified regions of the first image with the corresponding regions of the second image."

[0020] "Image processing device and image processing method," United States patent US9542599B2, "An image processing device for correcting at least a portion of a face image containing a person's f ace, includes an image acquisition unit that acquires a face image, a region extractor that extracts a pupil region containing a pupil from the face image, a determination unit that determines a presence or absence of halation in the pupil region, a first template acquisition unit that acquires a first template image which is a correction template image, a reference color acquisition unit that acquires a reference color corresponding to the person from the face image, a second template acquisition unit that generates a second template image using the first template image and the reference color, and a correction unit that composites the second template image with at least the region in the pupil region where the halation occurred to correct the halation."

[0021] "Voice processing method and device, and pickup circuit," WIPO (PCT) patent W02017071183A1, "A voice processing method and device, and a pickup circuit. The method comprises: collecting a voice signal, the voice signal comprising a voice incoming signal inputted by a user, and a voice feedback signal broadcast by a voice recognition processor (Sil); eliminating the voice feedback signal in the voice signal to obtain the voice incoming signal (S12); and transmitting the voice incoming signal to the voice recognition processorwhich is used for identifyingthe voice incoming signal and broadcasting the voice feedback signal (S13). By means of simultaneously collecting the voice incoming signal inputted by the userand the voice feedback signal outputted by the voice recognition processorand eliminating the voice feedbacksignal therein, the final collected voice signal is not interfered by the feedback signal, allowing for a "clean" voice incoming signal to obtained, and thereby improving voice recognition accuracy."

[0022] "Voice interactive method and device based on artificial intelligence," China patent CN 106941000A, "The present invention proposes a kind of voice interactive method and device based on artificial intelligence, wherein, method includes: By when detect proceed by interactive voice when, gather user input voice, identification obtain correspondingword. And then the word is identified, obtain the interaction demand and type of interaction of user. According to type of interaction, the su sponsion windows of display above the displaying interface of television services, or the displaying interface of selection television services, the interaction demand of feedback user are selected. Due to according to type of interaction, the feedback presentation mode that selection is adapted with interaction demand, to improve the presentation effect of interactive voice, it is to avoid interactive voice process is interfered to user using the process of intelligent television, solve interactive voice in the prior art and the poor technical problem of effect is presented."

[0023] "Artificial intelligence conversation device and method," WIPO (PCT)Patent WO2016175354A1, "The present invention relatesto an artificial intelligence conversation device and m ethod which supports a conversation between a human and a robot. An artificial intelligence conversation device according to an aspect of the present invention comprises: an input answer analysis unit which analyzes an answer input from a user; a response control unit which selects at least one response scenario among predetermined scenarios according to the result of the analysis and transmits an output command for a response and a question to the user's answer; and an output unit which outputs a silence o ra conversation start voice and outputs a response voice and a question voice according to the output command from the response control unit."

[0024] "Human Level Artificial Intelligence Software Application for Machine & Computer Based Program Function," United States patent US20070299802A1, "A method of creating human level artificial intelligence in machines and computer software is presented here, as well as methods to simulate human reasoning, thought and behavior. The present invention serves as a un iversal artificial intelligence program that will store, retrieve, analyze, assimilate, predict the future and modify information in a manner and fashion which is similar to human beings and which will provide users with a software application that will serve as the main intelligence of one or a multitude of computer based programs, software applications, machines or compilation of machinery."

[0025] "Determine the method and artificial intelligence equipment of emotion threshold value," China patent CN107194151A, "The application provides the method and artificial intelligence equipment for determining emotion threshold value, and this method includes: Step 1, artificial intelligence equipment determines that the affective state of the first user is the first affective state according to the monitoring information got: Step 2, the artificial intelligence equipment obtains N number of action of second us er: Step 3, the artificial intelligence equipment determines the first action according to Q. value tables: Step 4, the Q. values of first affective state and first action should be corresponded in the artificial intelligence renewal of the equipment Q. value tables: Step 5, the artificial intelligence equipment determines whether the Q. values updated are more than predetermined threshold value, if so, then emotion threshold value is determined according to the monitoring information, if it is not, then repeating the step I to the step 5 until it is determined that until the emotion threshold value. Above -mentioned technical proposal can be optimized using the Q. methods learnt to emotion threshold value, so as to improve communication efficiency and the communication effectiveness underdifferentscenes."

[0026] "Artificial intelligence system," United States patent US8126832B2, "An artificial intelligence system and method for interpreting input from a user and generating a response to the user. The input is converted into an array of concepts which are compared to a database of interrelated concepts. A response is generated based on the concepts in the database and their relationship to the concepts in the input array. The system and method may be implemented in a number of electronic or computer devices to interact with humans or computer systems." [0027] "Artificial intelligence system," United States patent US4670848A, "An artificial intelligence system for accepting a statement, understanding the statement a nd making a response to the statement based upon at least a partial understanding of the statement.The system is characterized by its interaction with a user, which may be a person or machine, in gathering additional statements through inquiries to develop the most specific understanding possible by matching of the statements with a data base."

[0028] "Artificial intelligence systems for identifying objects", WIPO (PCT) patent W02008091281A2, "A process for object identification comprising extracting object shape features and object color features from digital images of an initial object and storing the extracted object shape features and object color features in a database where said extracted object shape features and object color features are associated with a unique identifier associated with said objectand repeatingthe first step fora plurality of different objects. Then extracting object shape features and object color features from a digital image of an object whose identity is being sought and correlating the extracted object shape features and object color features of the object whose identity is being sought with the extracted object shape features and object color features previously stored in the database. If a first correlation of the extracte d object shape features is better than a first threshold value for a given object associated with an identifier in the database and if a second correlation of the extracted object color features is better than a second threshold value for the given object, then making a determination that the object whose identity is being sought is said given object."

[0029] "3-d graphic generation, artificial intelligence verification and learning system, program, and method," WIPO (PCT) patent W02017171005A1, "[Problem] To facilitate rendering a computer graphic image in real-time, compositing same with a video of an actual scene, and creating interactive content, and also to ensure responsiveness to a user operation. [Solution] Provided is a 3-D graphic generation system, comprising: a full-sky sphere camera 11 which photographs a background scene D2 of a virtual space 4; an actual environment acquisition means 12b which acquires turntable environment data DI of an actual site of which photographic raw material is photographed; an object control unit 254 which generates a virtual three-dimensional object D3 which is positioned within the virtual space 4, and which causes the three-dimensional object D3 to act on the basis of a user operation; an environment reproduction unit 252 which, on the basis of the turntable environment data DI, sets lighting within the virtual space; and a rendering unit 251 which, on the basis of the lighting which is set by the environment reproduction unit 252 and the control which is performed bythe object control unit 254, composites the three-dimensional object upon the photographic raw material which a raw material image photographic unit 12a has photographed."

Summary of Invention

[0030] HAMED FD is a completely automatic doctor for all plants (and also seeds) using artificial intelligence means (Al -Based). HAMED FDcan help clients to know best plants/seeds for agriculture in the farms, to watch and control plants/seeds and pests (if any) , to automatically control the quantity and quality of water, minerals, pesticides, and so on, and to identify/control if the plants/seeds are growing up normally and productively without human assistance (e.g. farmer help), and if soil, water and the environmental conditions in which the plants are (or will be) cultivated have the requirements/benefits for cultivating the plants or seeds. HAMED FD can be used for all kind of plants and seeds. Providing that HAMED FD will be used globally, cultivated and harvested plants can be monitored around the world and some useful information (like availability of certain plants in the case of needs for medical purposes or people's daily consumption in different areas) can be obtained and managed. Thereby, HAMED FD can estimate required future needs like human resources and other facilities to handle different situations before theyactually would be happened.

Technical Problem

[0031] FD. DATABASE Unit needs data of all plants and seeds (e.g. shape of them, appropriate environmental conditions), pests and pesticides (which pests are harmful for each plant and required pesticides to control the pests), water and soil conditions and minerals that are beneficial for each plant, costs and revenues, and other data to be prepared for further analysis. However, this can be done step by step; a limited numberof plants and/or otherdata can be stored at first, and then, other data will be added to HAMED FD.

[0032] Another milestone of HAM ED FD is FD. PROCESSI NG U nit where it is needed how to process image of the plants and seeds, soil and water, and pests and their damages, and voice of the clients for manual inputting of the information like type of the pest damaging the plants. Nowadays there are a lot of methods for image and voice processing to reach these purposes of the system.

[0033] The important part of HAMED FD is FD.AIU Unit where abovementioned features should be controlled. Thereby, methods should be designed carefully and efficiently.

[0034] Ultimately, using deep fake in FD.COM MM Unit needs precise methods and these would be more realistic in near future, although it is nowgood in some extent.

Advantageous Effects of Invention

[0035] HAM ED FD is a comprehensive system to watch and controls plants and seeds when cultivated and grown by the clients completely automatically, by artificial intelligence means, without any help of specialists/farmers.

[0036] HAM ED FD can help all the people around the world or even universe, when travelling to Moon or Mars forinstance, disregarding of their race, religion, wealth, etc.

[0037] HAMED FD also could be useful for those that are in distant places without accessing to any specialists/farmers, those who live in poor areas or those who travel to distant places without accessing to any specialists/farmers.

[0038] HAMED FD can control the quality and productivity of plants/seed being cultivated and grown by the clients.

[0039] Another benefit of HAM ED FD is to offer and control marketing strategies and plans for products.

[0040] HAMED FD can also be used for satisfying clients' needs regarding financing, insurance and workforce issuesforcultivating and growing plants/seeds.

[0041] Individuals can learn from HAMED FD about different plant/seeds, soil, water and minerals, pest and pesticides, and so on for their interests. [0042] Providing that HAMED FD will be used globally, information of plants/seeds at collective level can be gathered and monitored to understand societies' trends like supply and demand forfarming products, demands for instruments and otherfacilities needed in cultivation and growing of plants/seeds and so on.

Brief Description of Drawings

Fig.l

[0043] [fig.l] Flowchart of the system: it shows how HAMED FD works.

Fig.2

[0044] [fig.2] A simplified example of a plant (basil) algorithm: controlling if client's basil is growing well and productively in a timely manner.

Description of Embodiments

[0045] FD.DATABASE Unit stores all the data required for HAMED FD, and FD.ALGORITHMS Unit represents the correct forms of plants in different stages, from seeds to productive plants, with regard to their pests and pesticides, their needed water, soil and minerals, their needed costs and proposed revenues, and environmental conditions in which the plants are growing in order to be controlled more easily in FD.AIU Unit for further analysis. FD.DATABASE and FD.ALGORITHMS units shape the first stream reaching FD.AIU Unit. The second stream includes FD. INPUTS and FD.PROCESSING units which then are joined to the first stream and connected to FD.AIU Unit. FD.AIU is the heart of the system and is responsible to detect best plants/seeds for agriculture in the farms, and to automatically control properties (e.g. type, shape, quantity, quality) of plants and seeds, soil, water and minerals, pests, their damages, and related pesticides, and the environmental conditions in which the plants and seeds are cultivating and growing in orderto maintain/enhance growth quality and productivity of the plants/seeds (analyzing the output of FD.PROCESSING Unit with regard to FD.DATABASE and FD.ALGORITHMS units). The next step of HAMED FD is to tell the results to the clients via FD.COMM Unit. Ultimately, there are some sorts of facilities that can be offered by HAMED FD via units named as: FD.CW, FD.RA, FD.SUP, FD.FIN, FD.INSUR, FD.EMP, FD.MARK, FD.LEARN, and FD.MAN.

Examples

[0046] [fig.2] is a simplified example of a plant (basil) algorithm. It can control if client's basil is growing well and productively in a timely manner.

[0047] Providing that the leaves of the basil are big enough after a period of time required for basil to grow normally and productively, and the shape of the basil is appropriate (like healthy one) and not damaged by a pest, HAMED FD will communicate to the client that his/her basil condition is well and it is growing productively.

[0048] Otherwise, FD.COMM Unit warns and proposes required solutions to the client. If the basil is damaged by a pest, appropriate pesticide will be offered. If the size of the basil is smaller than the anticipated size, the system may understand that water, soil, minerals, environmental conditions or other issues are the problem and propose a solution afterfinding the real reason in a similar way introduced in this example. Industrial Applicability

[0049] Everywhere that a person needs to watch and control growth of plants of any kind without a specialist (e.g. farmer).

[0050] Everywhere that a person needs distant help to watch plants/seeds and pests (if any) and to identify if the plants/seeds are growing up normally and productively without human assistance ( e.g. farmer) help, and if soil, waterand environmental conditions in which the plants are (or will be) cultivated have the requirements/benefits for cultivating the plants or seeds.

[0051] Hamed FDcan continuously watch conditions of plants, and get help of real assistants (e.g. farmers) if needed.

[0052] When anyone needs any employees regarding protecting or cultivating plants.

[0053] When anyone needs insurance.

[0054] When anyone needs to purchase facilities/instruments related to the farming industry or contact with suppliers.

[0055] When any kind of financial assistances is needed.

[0056] When clients need marketingforselling their related goods.

[0057] When a client needs or like to increase his/her knowledge about some plants, seeds or pests.

[0058] Providing that HAM ED FD will be used globally, cultivated and harvested plants can be monitored around the world and some useful information (like availability of certain plants in the case of needs for medical purposes or people's daily consumption in different areas) can be obtained and managed.

[0059] HAMED FD can estimate required future needs like human resources and other facilities to handle different situations before they actually would be happened.

Reference to Deposited Biological Material

[0060] It does not relate.

Claims

Claims

[Claim 1] HAMED FD is a completely automatic doctor for all plants (and also seeds) using artificial intelligence means (Al -Based), and can help clients to know best plants/seedsfor agriculture in the farms, to watch and control plants/seeds and pests (if any) , to control the quantity and quality of water, minerals, pesticides, and so on, and to identify/control if the plants/seeds are growing up normally and productively without human assistance (e.g. farmer help), and if soil, waterand environmental conditions in which the plants are (or will be) cultivated have the requirements/benefits forcultivatingthe plants or seeds, characterized by FD.AIU, which getthe outputs of FD.ALGORITHMS and FD.PROCESSING units (the outputs of FD. DATABASE and FD.INPUTS units respectively), FD.COMM, FD.CW, FD.RA, FD.SUP, FD.FIN, FD.INSUR, FD.EMP, FD.MARK, FD.LEARN, and FD.MAN [fig. 1],

[Claim 2] According to the claim 1, FD.DATABASE Unit is characterized in a way that can store all the required data: general, specific, pests and pesticides, waterand minerals, and costs and revenues data.

[Claim 3] According to the claims 1 and 2, all the data from FD.DATABASE Unit is sorted and prepared in a unit characterized as FD.ALGORITHMS for every single plant/seed in such a way that can show correct forms of plants/seeds in different stages, from seeds to productive plants, with regard to their pests and pesticides, their needed water, soil and minerals, their needed costs and proposed revenues, and environmental conditions in which the plants are growing in orderto be controlled more easily in FD.AIU Unit with the information that will be gotten and processed via FD.INPUTS and FD.PROCESSING units.

[Claim 4] According to the claim 1, data of plants/seeds need to be watched and controlled, soil and water, pests and pesticides, and the environmental conditions can be gotten by a unit characterized as FD.INPUTS Unit manually, by the client, or automatically, using data of sensors, detectors, cameras, microphones and otherfacilities.

[Claim 5] According to the claims 1 and 4, a unit characterized as FD.PROCESSING Unit is responsible for making the raw data from FD.INPUTS unit readyfor furtheranalyses in FD.AIU Unit.

[Claim 6] According to the claims 1,2, 3, 4 and 5, a unit characterized as FD.AIU Unit is responsible to detect best plants/seeds for agriculture in the farms, and to automatically control properties (e.g. type, shape, quantity, quality) of plants and seeds, soil, water and minerals, pests, their damages and related pesticides, and the environmental conditions in which the plants and seeds are cultivating and growing in order to maintain/enhance growth quality and productivity of the plants/seeds (analyzing the output of FD.PROCESSING Unit with regard to FD.DATABASE and FD.ALGORITHMS units) using artificial intelligence (or other) techniques.

[Claim 7] According to the claims 1,2, 3, 4, 5 and 6, results of the system and further required actions will be communicated to the client via a unit characterized as FD.COMM Unit.

[Claim 8] According to the claims 1,2, 3, 4, 5, 6 and 7, a unit characterized as FD.CW Unit offers continuous watching and helps clients controlling the plants/seeds and the tasks (mentioned as FD.AIU main tasks) seamlessly and in any places without any helps of humans like farmers.

[Claim 9] According to the claims 1,2, 3, 4, 5, 6 and 7, a unit characterized as FD.RA Unit is responsible to make connections with real humans and experts (e.g. farmers) if needed, and experts can also use HAMED FD via FD.RA Unit to get extra information based on the data stored in FD. DATABASE Unit as well as information of their plants/seeds analyzed by HAMED FD.

[Claim 10] According to the claims 1,2, 3, 4, 5, 6 and 7, a unit characterized as FD.SUP Unit can provide facilities and instruments that clients may need to cultivate and to grow plants/seeds directly (using its own delivery system) or by making relationships with otherfarming companies or stores.

[Claim 11] According to the claims 1,2, 3, 4, 5, 6 and 7, a unit characterized as FD.FIN Unit can help clients buying their needs like seeds, young trees, and other instruments by providing financing facilities (e.g. loan).

[Claim 12] According to the claims 1,2, 3, 4, 5, 6 and 7, a unit characterized as FD.INSUR Unit can insure clients' facilities (e.g. farms) and employees or make relationships with other insurance companies to help supporting clients financially if theyencounterany issues while usingthe system.

[Claim 13] According to the claims 1,2, 3, 4, 5, 6 and 7, a unit characterized as FD.EMP Unit is designed to help clients to find any workforces (employees) they may need duringthe process of cultivating, growing and harvesting plants and products.

[Claim 14] According to the claims 1,2, 3, 4, 5, 6 and 7, a unit characterized as FD. MARK Unit is attached to HAMED FD for assisting clients to sell their products (e.g. fruits) and for marketing purposes such as evaluating supply and demand for each product, appropriate markets for the products and so on.

[Claim 15] According to the claims 1,2, 3, 4, 5, 6 and 7, a unit characterized as FD.LEARN Unit is a way for clients to learn about different plants, seeds, pests, pesticides, soil, minerals and others for increasing their knowledge orjust forentertainment.

[Claim 16] According to the claims 1,2, 3, 4, 5, 6, and 7, information of the clients at collective level can be gathered, monitored, and managed via a unit characterized as FD.MAN Unit to understand societies' information (like available plants/seeds, potentials of producing a variety of foods, deman ds for instruments and other facilities needed for agriculture, farming conditions, prediction of demands for each product, availability of certain plants in the case of needs for medical purposes or people's daily consumption in different areas, appropriate markets for the products and so on), and HAMED FD can estimate required future needs like human resources and other facilities to handle different situations before theyactually would be happened.