The present invention relates to a hive monitoring system that determines any change in each chemical (pesticide, antibiotics, bee medicines) in the hive, measures the environment data and informs the control authorities so as to provide a fully monitored and controlled production from the hive to the spoon.
In beekeeping worldwide, diseases such as European Foul Brood, American Foul Brood, Nosema, Varrao parasite etc. are seen widely. Beekeepers use effective drugs against these diseases routinely so as to protect their bees from these diseases. Moreover, pesticide application is made to the cultivated plants where the beehives are positioned. However, there are availability limits of these drugs in the bee products worldwide. Therefore, both the dose of drugs applied by beekeepers and the amount of contamination of products such as honey, pollen, propolis, royal jelly in beehives of pesticides applied externally to herbal production is very important. For this reason, both the physical, chemical and geographical conditions are required to be appropriate and the harmful drug residues such as pesticide and antibiotic etc. to which the hives are exposed must be below the specified limit values so as to provide the bee products to comply with the quality standards.
In the hive control devices already exist in the current systems, only temperature and humidity control can be performed, information regarding bee movements and the location of the hive can be received. Moreover, the amount of nectar that comes to the hive can be measured by locating a scale under the hive. In the current systems, there are also automatic feeding systems, Heating and cooling systems that can intervene in the hive partially are available, when the critical values defined for the sensors are exceeded in these systems. However, there is no such an application that notifies the owner of the hive via e-mail or SMS when the critical values are exceeded.
Remote monitoring feature is given to the abnormal sounds in the hive with the sounds sensors that are added individually to these sensors however the transmission of the information obtained from the sensors in the hive is realized directly through the cables connected to the computer. Thus, use of said inventions in real life is not practical. In the current hive control devices, there are no sensors and systems that perform notification, can be able to measure the amount of the drugs and external pesticides applied to the beehives. Moreover, the state of the art could not be followed and self-learning artificial intelligence models could not be applicable to the current hive control systems.
In the state of the art, U.S. Pat. No. 7,549,907B2 relates to a system that records and analyzes the honey bee sounds so as to monitor the hive health. The recorded sound data are filtered and analyzed by means of software, the determination and detection of the toxic substances carried by airway is provided. The bees make different sounds as a result of the non-lethal toxic substances to which they are exposed. The hive health can be determined as a result of the analysis of the sounds made by the bees. It is not possible to detect toxic substances exactly and whether they are within the limit value or not although they can be determined. Moreover, it is not possible to reach the instant data as well as to monitor the detected information remotely.
As a result, due to the abovementioned disadvantages and the insufficiency of the current solutions regarding the subject matter, a development is required to be made in the relevant technical field.
The invention covers a system to be used by packaging food companies of the bee products that serve in the beekeeping sector, beekeeper unions, honey producer unions, the ministry of agriculture and forestry, and directorates of provincial and district agriculture. Each chemical, physical and geographical change in the hive can be monitored with this system from the hive to the spoon preferred by the companies that intend to provide fully monitorable and controllable production. Moreover, a smart control system will be provided with which the producer and control authorities can control the quality of the product with a timely response. Moreover, public institutions and beekeepers and associations of honey producers may prefer this so as to control the production of the quality of bee products of the beekeepers.
The drug applications, health of the bees, presence of the colony and mobility of the hives will be managed and monitored with the invention as well as determinations are made regarding drugs placed in the hives such as pesticide and antibiotic to which the bee colonies are exposed. At the same time, aroma and health condition in the hive will be monitored with the algorithms of machine learning by measuring the gas composition within the environment by means of an electrochemical (electronic nose) device.
Another aim of the invention is to collect all data in an environment with the wireless communication and internet of things (IoT) logic by placing sensors in the hive and to provide this data to be learnt by the machine. Therefore, the artificial intelligence will not only distinguish the pesticides used in the hive but also will keep the data regarding when the drugs or external pesticide contamination occurred, how much they are used etc. in its memory and will provide the meaningful data to the users. The users can take correct and suitable precautions according to the obtained data.
In addition to the abovementioned features, the invention comprises the current methods in its structure and in the device placed in hive, it provides to remotely control the hive by means of the sensors that can be able to measure/count the sound level of the bees, in hive humidity level, in hive temperature, the mobility of the hives, the location, inlet and outlet of the bees, the number of opening and closing of the hive.
It is provided to monitor the stress conditions such as hunger, swarming, absence of queen bee by measuring the humidity and temperature in hive by means of measuring the sound level of the bees with the sound sensor. The inlet and outlet of the bees are counted with the camera placed in front of the hive inlet door and thus information regarding the nectar arrival condition is provided by determining the number of flying bees. The communication of the low power RFID module and the external unit with the in hive device is provided. In hive GPS module provides monitoring the hives.
The inventive system provides to send message and/or e-mail to the mobile phones, tablets in case of any limit exceeding with the help of the lower and upper limits determined for the sensors in the hive.
The structural and characteristic features of the invention and all its advantages will be understood clearly by the following drawings and the detailed description made with reference to these drawings.
The figures are not required to be scaled and the details which are not necessary for understanding the present invention may be neglected.
In this detailed description, the preferred embodiments of the invention is described only for clarifying the subject matter in a manner such that no limiting effect is created.
There are 2 units in the inventive hive monitoring system as internal and external. In the preferred embodiment, in the out hive unit (B); there are the following; processor unit (8), memory unit (3), GPS module (5), humidity sensor (2), temperature sensor (13), (RFID) communication module (9) and battery (10). In the preferred embodiment, in the in hive unit (A); there are the following; processor unit (8), memory unit (3), humidity sensor (2), sound sensor (1), hive cover sensor (4), GPS module (5), bee count sensor (6), movement sensor (7), temperature sensor (13), chemical substance sensor (14), chip (15), communication module (9) and battery (10).
Learning process with the learning module is applied for the operation of the invention. The operations performed at this phase are as follows;
After the learning process is completed, the learning module is integrated into the chip (15) connected to the chemical substance sensor (14) with integration and placed in the hives. Therefore, the artificial intelligence in the chip (15) measures the harmful bee drugs such as antibiotic and pesticide required to be available in the hives and applies the required processes in case the limit values are exceeded. The chemical substance sensor (pesticide—antibiotic, odor electronic nose) (14) located in the hive performs precise measurement with the chemical sensor sequence in its structure on the odors at such levels that cannot be detected with human nose. Data regarding residue, aroma etc. in the hives are collected with this sensor. The odors within the ambient received by means of the chemical substance sensor (14) are processed in the chip (15) with the machine learning and classification studies are carried out. Condition of exceeding the limit values is monitored by making the analysis of the pesticide, antibiotic and other harmful drugs applied in the hive and it is monitored whether veterinary medicine application is carried out or not in the hive.
Also measuring sound sensor (1), humidity sensor (2), cover sensor (4), count sensor (6), motion sensor (7), temperature sensor (13) are added so as to monitor the hive remotely. The sound levels generated by the bees in the hive are measured so as to monitor the hunger and swarming conditions by means of the sound sensor (1), The humidity sensor (2) in the in hive and out hive units (A, B) measures the humidity of the internal and external air. The cover sensor (4) located in the in hive unit (A) provides to determine how many times the hive is opened for maintenance by counting the number of times the upper cover of the hive is opened and closed or by whom the cover is opened other than the beekeeper. The count sensor (6) in the in hive unit (A) provides to determine the number of flying bees by means of counting the inlet and outlet of the bees to/from the hive and to obtain information about the nectar arrival condition. The motion sensor (7) is the sensor that detects the movements of the hive, determines the conditions as the overturn of the hive or the occurrence of an impact. The temperature sensor (13) in the in hive and out hive units (A, B) measures the temperature of the internal and external air. All these sensor data collected are sent to the memory units (3) and processor units (8).
The data received from the chemical substance sensor (14) are sent to the memory unit (3) attached to the beehive with time stamp and hive number. Open source coded systems are used so as to save the data. The Influx open source based database management system that exhibits good performance in preferably IoT and time stamped records is used among these. The processor unit (8) located in the in hive unit (A) sends the information received from all sensors in the hive to the out hive unit (B) or to the access devices (12) of the users directly by means of the communication (GSM) module (9) as a notification. A warning/informative message and/or e-mail is sent to the access device (12) that can be a mobile device, computer or an alternative access device preferred by the user in case of any limit exceeding by determining lower and upper limits for all sensors. It is provided that the out hive unit (B) keeps the information received from the in hive unit (A) in the memory unit (3) or sends the same to the server (11) directly. The data received from the sensors present in the external unit (B) are sent to the server (11). The data is preferably transmitted to the software in the server (11) over the cloud. The server (11) provides the instant transmission of the warning/informative notifications (SMS and/or e-mail) to the access device (12) (mobile device, computer etc.) that the user prefers. Thanks to aforementioned software, the beekeeper and the institution managing the system can be able to control the condition of the hives by entering this software (portal) with the password and user name belong to them via the access device (12). There are applications of the system that can operate on the Android and ICES operating systems in the mobile phones and tablets.
There are batteries (10) in the hive monitoring system that provide the required energy so as to operate the elements in the in hive and out hive units (A, B), Preferably, the batteries (10) used are the energy sources that are operating with long-lasting battery or solar energy. The location of the hive is determined and monitoring of the hive is provided by an access device (12) by means of the GPS module (5) that is located in the out hive unit (B) and can be able to send data with the SIM card inserted therein.
Number | Date | Country | Kind |
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2020/14298 | Sep 2020 | TR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/TR2020/051306 | 12/16/2020 | WO |