NL2012882B1 - Farm system equipped with a portable unit. - Google Patents

Abstract

Farm system provided with a portable unit that can be carried by a user for supplying information to the user, the portable unit being designed as a projection unit adapted to be attached to a user's head (or arm) and which is arranged to project the information into at least one eye of the user.

Description

Title: Farm system with a portable unit.

The invention relates to a farm system provided with a portable unit that can be carried by a user for supplying information to the user.

Such a system is known per se. In the known system, the portable unit is often designed as a portable computer which can be held by hand for reading the relevant information which relates, for example, to information from an animal and / or information from an apparatus such as a milking robot or feeding station of the farm system. The object of the invention is to improve the known farm system. The farm system according to the invention is characterized in that the portable unit is designed as a projection unit that is adapted to be attached to a user's head (or arm) and which is adapted to project the information into at least one eye of the user. Because the portable unit can be attached to a user's head or arm, information can be supplied to the user while the user keeps his hands free to perform work on the farm. This prevents loss of time and, moreover, the work can be carried out with greater accuracy. Preferably, the projection unit is designed as glasses. More in particular, it holds here that the projection unit is adapted to project the information, via at least one glass of the glasses, into at least one eye of the user. However, it is also possible that the projection unit is designed as a contact lens.

Preferably, it holds that the system is arranged to determine a position and identity of an animal. This gives an important advantage if, for example, a user wants to go to the relevant animal. The user can then, for example, enter an identity of an animal that he is looking for into the system. In particular, it holds here that the system is adapted to project the position of the animal determined with the system into the eye of the user with the aid of the projection unit, possibly in combination with the identity of the animal. The information can for instance be displayed in the form of an arrow display which indicates the direction in which the user must go in order to reach the animal. The information can also be indicated in the form of a map, for example a map of the farm on which the position of the animal is indicated. Preferably, it holds here that the projection unit is provided with means for entering the identity of an animal that is being sought into the system with the aid of the projection unit. These means may, for example, consist of a sensor in the projection unit to record the spoken word of the user. In particular, it further holds that the system is arranged to determine a position of the projection device and to project information about an identified animal in the at least one eye of the user if that animal is in the vicinity of the projection according to a predetermined criterion. unit. In this way, information from an animal in which the user is located can be projected into the eye of the user in an automatic manner. More in particular, it holds here that the system is adapted to determine, with the aid of the projection unit, in which direction a user is looking and to display information about an animal in the eye of the user if that animal conforms to a predetermined criterion. is in the direction that the user is looking. This variant is particularly useful when a user is with a group of animals. By looking at one of these animals, information about that animal is displayed in the eye of the user. According to an even more advanced embodiment, it holds that the projection unit is further adapted to supply sound to at least one ear of the user. More in particular, it holds here that the system is adapted to supply information in the form of the spoken word to the at least one ear. Preferably, it holds that the system is adapted to supply information about the determined position of the animal in the form of sound to at least one ear of the user, possibly in combination with the determined identity of the animal, with the aid of the projection unit. According to an even more advanced embodiment, it furthermore holds that the system is further adapted to determine a position of the projection device and to supply information about an identified animal in the form of sound, for example in the form of spoken word, to the ear if that animal that is in the vicinity of the projection unit according to a predetermined criterion. Preferably, it holds here that the projection unit is adapted to determine in which direction a user is looking and to supply information about an animal in the form of sound, for example in the form of spoken text, to the at least one ear of the user if that animal is in the direction in which the user is looking according to a predetermined criterion. According to a preferred embodiment, it holds that the projection unit is provided with at least one sensor for detecting a movement of the user. More in particular, it holds here that the projection unit is arranged to detect a movement of at least one eye of the user. Preferably, it holds here that the system is adapted to process the information about a detected movement, wherein the information comprises commands from the user for the system, for example for controlling a feeding machine 34 or milking robot 36 of the system, and / or this processed information about the detected movement relates to data generated by the user, for example by observing an animal or a farm machine, which data is stored in the system and / or further processed.

A command may, for example, consist of entering an identity of an animal which is searched as discussed above. A command can also consist of controlling a feeding machine 34 or milking robot 36 in which a user is, for example, close by. There are different ways to enter these commands. For example, simple commands can be related to specific directions in which a user moves his head or eyes. According to a more advanced embodiment, for example, the alphabet is displayed in the eye of the user with the aid of the projection unit. Because a user looks at a letter of that alphabet by moving his eye here, a letter can be entered. By repeating this, words and sentences and thus commands can be entered. According to an even more advanced variant, an image of each user is projected. This allows a 3D image to be projected. This image can for instance comprise icons or characters which are projected into the room at arm's length from the user. For example, a user can designate such icons or characters with his hand. The projection unit can then detect this hand using a built-in camera. The system can then be arranged to recognize which icon or which character is designated by a user. In this way the user can supply information to the system for further processing by the system or storage in the system. This can also be repeated for the user entering different icons and / or characters into the system.

However, it is also possible that the projection unit is provided with a sensor for detecting a sound from the user. The projection unit can be arranged to detect a sound from the user's mouth. The system may then be arranged to process the information about the detected sound, wherein this processed information may include commands from the user for the system or information to be stored in the system, as discussed above. The information on the detected sound can also relate to data generated by the user, for example by observing an animal or a farm machine, which data is stored or processed in the system. When an animal is observed, it may, for example, concern an identity of an animal that can be read on a label worn by the animal, an illness of an animal and the like. Upon observation of a machine, the data may also relate to a property of the machine such as a defect of the machine determined by the user. This data can then be stored in the system or processed and can lead to automatic actions of the system. In particular, it holds that the projection unit is also adapted to detect image and / or sound of an environment of the user. Information about the image and / or sound can be further processed or stored in the system. In particular, it holds that the farm system is further provided with a computer in which the computer and the projection unit are connected wirelessly to each other. The computer may be adapted to further process the information it receives from the projection unit, or to supply information to the projection unit, which information, as discussed above, to the eye and / or an ear of the user can be added.

The invention will now be further elucidated with reference to the drawings. It shows:

FIG. 1 a first embodiment of a farm system according to the invention;

FIG. 2 a contact lens that is functionally seen in the system of FIG. 1 the glasses of FIG. 1 can replace; and

FIG. 3 a watch functionally seen in the system of FIG. 1 the glasses of FIG. 1 can replace.

In FIG. 1, reference numeral 1 designates a farm system according to the invention. The farm system is provided with a projection unit 7 which is designed as glasses 7 and which is adapted to be attached to a head of the user. The glasses are provided with a projector 2 with the aid of which information can be projected through a glass 3 of the glasses into an eye of the user of the glasses. The projection unit is thus arranged to project information through a glass 3 of the glasses into the at least one eye. Of course, it is also conceivable that information is projected through the glass 5 into another user's eye or that information is projected into the user's eyes through the glasses 3 and 5. It is also possible that the glass 3 itself is arranged to display the relevant information in the eye, for example via LCD and / or LED techniques. The same applies to the glass 5.

The glasses 1 are further provided with a transmitting and receiving unit 4 for wireless communication with a computer 24 of the system. To this end, the computer is connected to a transmitting and receiving unit 26. This allows the computer 24 to communicate with the transmitting and receiving unit 4 of the glasses by means of the transmitting and receiving unit 26. In the example, it further holds that the glasses are provided with an RFID label 8. Furthermore, the glasses are provided with a GPS receiver 10. The glasses are also provided with an electronic compass 12. Furthermore, the glasses are provided with a camera 14. the glasses are provided with a microphone 16. Furthermore, the glasses are provided with a loudspeaker 6. Furthermore, the glasses 7 are provided with a light-sensitive detector 18, with the aid of which energy is generated for the energy supply of the glasses 7. Furthermore, glasses are provided with a control unit 21 with which the projector 2, the transmitting and receiving unit 4, the loudspeaker 6, the RFID label 8, the GPS receiver 10, the electronic compass 12, the camera 14, the microphone 16, the light detector 18 and the motion detector 20 are connected. The control unit processes signals from the transmitting and receiving unit 4, the RFID tag 8, the GPS receiver 10, the electronic compass 12, the camera 14, the microphone 16, the light detector 18 and the motion detector 20. Furthermore, the control unit controls unit signals to the projector 2, the transmitting and receiving unit 4, the loudspeaker 6 and the RFID label 8. The system is furthermore provided with a reader 28 for reading the RFID label 8. The system is furthermore provided with a first phased array antenna 30, with the aid of which a transmission signal originating from the transmission and receiving unit 4 and / or the RFID tag 8 can be detected and also from which direction the transmission signal concerned originates. Furthermore, the system is provided with a second phased array antenna 32 which is arranged at a different position than the first phased array antenna 30 and with which also the direction in which a transmission signal from the glasses is generated by the transmission and receiving unit 4 or the RFID label 8 of the glasses can be determined. The computer 24 is arranged to determine differences on the basis of the phase between the reception signals from the phased array antenna and direction P1, from which the transmission signal originates with respect to the first phased array antenna 30. The computer 24 is also adapted to determine differences on the basis of the phase between the reception signals of the second phased array antenna 32 and direction P2 with respect to the second phased array antenna 32, in which the transmission signal originates from the glasses. The computer 24 is also adapted to determine where the glasses are located on the basis of the directions P1 and P2. However, it is also possible that the glasses determine the position of the glasses with the aid of its GPS receiver 10. This position is then supplied to the sending and receiving unit 4 via the control unit 21, after which the sending and receiving unit 4 transmits information about this position which is received by means of the sending and receiving unit 26 and is supplied to the computer 24 for further processing. The reader 28 transmits an electromagnetic interrogation field with the aid of which the RFID label 8 can be read from the glasses. The RFID label 8 can, for example, respond by transmitting an identification number of the RFID label. However, it is also possible for the RFID tag to respond by transmitting other information, such as, for example, information generated using the GPS receiver. This information is then received by the reader 28 and supplied to the computer 24. Completely anologically, information obtained with the aid of the compass 12, the camera 14, the microphone 16 and the motion sensor 20 can be supplied to the computer 24 via the transmitting and receiving unit 4 and the transmitting and receiving unit 26. However, this information or part of this information can also be supplied to the reader 28 with the aid of the RFID tag 8 when the RFID tag is located in an interrogation field of the reader 28. The reader 28 then sends this information to the computer 24 for further processing. It is clear that if the glasses are provided with an RFID label, the transmitting and receiving unit 4 can be omitted. It is also conceivable that when the glasses are provided with the transmitting and receiving unit, the RFID tag can be omitted. There are several other options for determining the position of the glasses. If the glasses are provided with the GPS receiver, the phased array antennas 30 and 32 could therefore also be omitted. If the phased array antennas 30 and 32 are present, the GPS antenna 10 could be omitted. For determining the position of the glasses, various other possibilities are conceivable, such as the pulsed irradiation of the RFID label from the glasses 7, wherein a reaction from the label is received by a plurality of receivers scattered around the frame. A position can then be determined from maturity differences.

The system is furthermore provided with an RFID label 33 which is attached to an animal 35. The RFID tag 33 can be read in the usual way by the reader 28. An identification code of the tag 33 and thus the identity of the animal can then be supplied to the reader 28. In the example, the system is provided with a single reader 28. However, it is also conceivable that the system is provided with a plurality of readers arranged scattered on a farm. A position of the RFID tag 33 can be determined by the system 1 in a similar manner as discussed above for the RFID tag 8 of the glasses 7. The system has then also determined the position of the animal 35.

However, the system can also be provided with other means for determining the position and possibly the identity of the animal in known manner. The system can further be provided with a plurality of labels 33 and a plurality of animals, each of which is provided with such a label with a unique identification code so that the identity and / or position of each animal can be determined by the system.

The animal can also be provided with a portable label 34 on which an identification code of the animal is depicted. The projection unit can record this code with the aid of the camera 14 and wirelessly supply it to the computer for determining the identity of the animal. The wireless supply can again be carried out with the aid of the transmitting and receiving unit 4 and / or with the aid of the RFID label 8. In this example, it holds that the system is furthermore arranged to use the projection unit 7 (here implemented as glasses 7) project information about the particular position of the animal in the eye, possibly in combination with the specific identity of the animal. For example, the system can do this in response to a command from a user. For example, a user can indicate in spoken word that he is looking for a specific animal. This is then received via the microphone 16 and information about this demand is supplied wirelessly to the computer 24. The computer 24 can then determine where the animal is located in a manner as discussed above. Information about where the animal is can then be supplied wirelessly to the glasses. This information can then, for example, be visually projected into a user's eye using the projector 2. This can then, for example, be done via arrow display so that the user knows in which direction he should walk. It is also possible that a plan of the farm is projected and on which it is indicated on which the relevant animal is visible. It is also possible that the system is adapted to supply information on the determined position of the animal in the form of sound to at least one ear of the user with the aid of the projection unit. This is possible because the computer 24 wirelessly controls the loudspeaker 6. The information can then be supplied to the at least one ear in the form of a spoken word. It is also conceivable that the information is supplied to the user in a different manner, for example in the form of coded pulse tones whose spring and / or height contain information about the position of the animal.

More generally, it therefore holds that the farm system is provided with the computer, wherein the computer and the projection unit, that is to say the glasses, are connected wirelessly to each other and in which in particular the computer is arranged to provide information to the projection. -unit for supplying to the user and / or wherein in particular the computer is arranged to further process information generated by or with the aid of the projection unit.

The system is herein preferably arranged to send visual information from the computer to the projection unit, the projection unit being adapted to project this information in at least one eye. The system is preferably further adapted to transmit sound information from the computer to the projection unit, the projection unit being adapted to supply this information to the at least one ear with the aid of the loudspeaker 6. The system is also preferably arranged that the information which is projected into use by the projection unit in the eye is generated by the computer and is transmitted to the projection unit via one of said wireless connections between the computer and the projection unit added. Furthermore, it holds in particular that the system is arranged such that the information supplied to the at least one ear in use by the projection unit is generated by the computer and supplied to the projection unit via one of the wireless connections.

In particular, it holds that the computer is designed to project information about the determined position of the animal in the eye using the projection unit, possibly in combination with a specific identity of the animal as discussed above. The position of the animal can also be determined by reading the RFID tag 30 from the animal with the reader 28. In this way it is then known that the animal is in the vicinity of the reader 28. It is then also known which animal is present at the reader because the identification code of the RFID tag 30 is read out. However, it is also possible that the system, as discussed above, determines the position of the animal in a different way. Use can also be made of the Cow Position System (CPS) known per se. This Cow Position System can then be connected to the computer 24 for supplying information about the identified animal, in particular information about the position of the relevant animal. As stated, the relevant position of the animal can then be supplied wirelessly by the computer 24 to the projection unit, in order to subsequently be brought to the eye and / or ear of a user by means of the projector 2 and / or the loudspeaker 6, respectively. added.

In particular, as discussed above, it holds that the system is provided with positioning means, in this example the GPS receiver and / or the first phased array antenna 31 and the second phased array antenna 32 to determine the position of the projection unit. The positioning means are communicatively connected to the computer. The computer is thus provided with information about the position of the projection unit. The computer is further adapted to determine, in accordance with a predetermined criterion, whether an animal identified by the system, in a manner as discussed above, is in the vicinity of the projection unit. The predetermined criterion may be, for example, that the distance between the project unit and the label 33 carried by the animal is less than 4 meters. If so, information about the identified animal can be supplied to the projection unit for projecting (at least part of) this information about the identified animal in the at least one eye and / or for supplying (at least part of) of) this information about the identified animal on the at least one ear, respectively with the aid of the projector 2 or the loudspeaker 6.

In this example, it further holds that the computer is designed to determine in which direction a user is looking with the aid of the projection unit. This direction can be determined with the aid of the compass 12 and supplied wirelessly to the computer 24. The computer is further adapted to supply information about an animal to the projection unit for projecting this information into the eye of the user with the projection unit if it is located in the direction in which the user looks. This predetermined criterion may be, for example, that a viewing angle of 30 degrees is defined in the horizontal plane on either side of the viewing direction of the user. The total viewing angle is then 60 degrees. If the label 33 carried by the animal is at this viewing angle and is at a distance from the projection unit that is less than 4 meters, the computer will supply information about the animal in question to the projection unit for projection of (at least part of) this information in the eye and / or for supplying (at least part of) this information to the ear. This is particularly useful when a user is in the vicinity of a plurality of animals. By then looking at one particular animal, information from that animal can be retrieved from the computer and supplied to the user in the manner described above. Information about an animal can therefore be supplied to the user both visually and / or by means of sound. Both methods of delivery can be complementary and completely or partially overlapping.

The projection unit is also provided with a motion sensor 20. The computer 24 is adapted to process information about detected movements with the aid of the motion sensor, wherein the motion information may comprise commands from the user for the computer, for example for controlling with the computer from a feeder 34 or milking robot 36 of the system. It is also possible that the processed information about the detected movements relates to data generated by the user, for example by observing an animal or a farm machine, which data must, for example, be stored in the computer. Thus, for example, by moving his head, the user can supply information to the computer in a coded manner. With the help of the microphone 16, as stated, sound, i.e. a voice of a user, can also be detected. In this example, it further holds that the computer is arranged to process information about a detected sound. This sound information may, for example, comprise commands from the user for the system, for example for controlling a feeding machine 34 or milking robot 36 of the system with the computer. It is also conceivable that information about the detected sound relates to data generated by the user, for example through observation of an animal or machine from a farm, which data is processed by the computer. For example, a user's observation that the animal has certain deviations and / or that a farm machine, such as a feeding machine 34 or milking robot 36, is not functioning properly. In the example, it further holds that the computer is arranged to respond in response to an identity of an animal that has been determined, for example in one of the ways as discussed above and / or in response to a particular position of an animal, for example in a manner such as discussed above, selectively supplying information to the projection unit for projection into the at least one eye and / or for supply to the at least one ear. Thus, if a user enters an animal identification code in one of the aforementioned ways, then in response to the computer, information can be selectively supplied to the projection unit in an automatic manner. M.a.w. the selection is made in dependence on the identification code of the animal. The selection can then consist of a selection of information that relates to the relevant animal. It is also conceivable that the computer is adapted to projectively transmit a response to a detected movement of the user that comprises information about a user-determined identity of the animal, or about a certain position of the user. unit for projection into the at least one eye and for delivery to the at least one ear of the user. For example, if a user indicates, by means of a detected movement of the user, the identity of an animal that he sees or wants to receive information from, the computer can selectively supply information about the relevant animal to the projection unit for projection of this information in the at least one eye and / or for supplying this information to the at least one ear. In this example, the detected movement relates to a movement of the entire projection unit that has been detected with the aid of the sensor 20. It is therefore a detected movement of the head. However, it is also possible that the projection unit is arranged to detect the movement of an eye of a user. This can be done, for example, with the aid of the camera 14. In this context, it is particularly true that it is possible to project an alphabet into the eye of the user with the aid of the projector. Because the user looks at a certain letter of the alphabet, a certain letter is selected, which is detected by means of the camera 14. In this way, information can be repeatedly entered at the projection unit, which information is transmitted wirelessly to the computer 24. Each time a character has been detected that is indicated by means of the eye, a beep can be generated via the loudspeaker 6, for example, so that the user knows that he has successfully selected a character that has been supplied to the computer. The computer can provide the command for generating the relevant beep. It is also conceivable that, based on a certain position of the user, the computer selectively supplies information to the projection unit, for example information relating to the farm, more in particular to the position of the farm where the user is located is located. This can then be, for example, the position of an animal that is in the vicinity of the user or the position of a device of the farm system where the user is located. Such variants are each understood to fall within the scope of the invention. Instead of characters, icons could also be displayed and selected. The system according to the invention comprises a multitude of possibilities in this way. For example, if the user is a milker, the advantage of the system can be used in the milking parlor of the farm system. A milker can then, for example, see information per animal with regard to milkings of the past days. Think of protein or fat levels. Basic data could also be consulted at the request of the user and this information could then be supplied to the user from the computer via the projection unit. The so-called MPC2 control panel can also be replaced by the projection unit according to the invention. The monitor functionality can then be taken over by the projection unit. A user in the form of an inseminator can also make great use of the system. In this way important reproduction data can be shown to the user per animal. With the help of the projection unit, information can then be entered orally to the system as cow 24 is inseminated with XX. The bull can then be indicated by means of Evernote and feedback can be made to a database such as Velos which is stored in a computer and is part of the computer 24. The concept of computer 24 must therefore be interpreted broadly in this example and other computers and computer systems comprising communication connected to the system according to the invention. If the user is a farmer, he can indicate which KPIs he wants to see per animal or per group of animals. This can then be indicated in a database of the computer 24 from which the projection unit retrieves information, for example in response to commands from the user. The user can also consist of a veterinarian. The veterinarian can also easily choose information from a particular animal in this way. The identity of the relevant animal can again be established in a manner as discussed above. The information can thus be entered into the system by the user himself. The information can also be derived by determining in the vicinity of which animal the information unit is located or by determining in which direction the information unit is directed, i.e. by determining which animal the veterinarian is looking at. In response, a database of the computer can make information about the animal in question available. This information can relate to the health of an animal. The computer can also retrieve information from various databases that are linked to the relevant animal. Also, when he has examined the animal, the veterinarian can enter information into the system, for example by moving his head or eye or by spoken word. The farm system can also be advantageously applied at the technical level of livestock farming. For example, a user who is in the vicinity of a device of the farm system can enter information about faults of the device at the system. He can also retrieve information about a specific device from the system. For example, when the relevant device was last serviced. This information is then also stored in the computer 24. In addition to the animals, the devices can also be provided with an RFID tag so that the identity of a device can also be determined for retrieving information about the device from the computer 24 and supplying it. information to the user via the projection unit. The user can also store information about the identified device with the projection unit in the computer, as has already been discussed above for animals. Information can also be retrieved from the computer or supplied to the computer by the user during installation and / or commissioning of farm in the directions. Other applications are also conceivable. Because a VPU or Vpack becomes recognizable and possibly transmits a signal, KPI information can be read from this Vpack. This includes firmware, age / age and the like. This can be used when installing the system or during maintenance. It is then known in the stable where which Vpack etc. is located or which malfunction occurs. Such variants are each understood to fall within the scope of the invention.

It is noted that information can also be entered in a different manner with the aid of the information unit. For example, it is conceivable that information is projected into the user's eye via both glasses, this information being presented to the user in a three-dimensional image in space. This three-dimensional image can for instance comprise symbols and characters. A user can designate these symbols or characters in the space with his hand. The position of the user's hand can then, for example, be detected with the aid of the camera 14. In this way it can be established with the aid of the information unit that a user designates a symbol or character with his hand in the space. In this way, information can easily be supplied to the computer wirelessly for further processing. More generally, it therefore holds that the system is adapted to supply a 3D image to both eyes of a user with the aid of the projection unit. The invention is therefore by no means limited to the embodiments described above. Thus, instead of, in the form of glasses, the projection unit can also be designed in the form of at least one contact lens 7 as shown in FIG. 2 is indicated. The contact lens is then provided with the same functionality as discussed with the glasses, i.e. a transmitting and receiving unit 4, a loudspeaker 6, an RFID label 8, a GPS receiver 10, an electronic compass 12, a camera 14, a microphone 16, a photosensitive cell 18 for power supply and a motion detector 20 as well as a control unit 21. The operation of the contact lens is otherwise completely analogous as discussed above. The image that is projected into the eye can then be realized by providing the projector 2 or by providing the entire lens with an LCD display. In particular, a user uses two of such contact lenses, one for each also wherein each lens is controlled by the computer. In this way it is possible to apply a 3D image to both eyes of the user. Also, instead of, in the form of glasses, the projection unit may also be in the form of a watch 7 ", as shown in FIG. 3 is indicated. The watch The contact lens is then provided with the same functionality as discussed in relation to the glasses, i.e. a transmitting and receiving unit 4, a loudspeaker 6, an RFID label 8, a GPS receiver 10, an electronic compass 12, a camera 14, a microphone 16, a photosensitive cell 18 for power supply and a motion detector 20 as well as a control unit 21. The operation is otherwise entirely analogous as discussed above. The image projected into the eye can then be realized by an LCD display 2. In the system of FIG. 1, combinations of the glasses 7, the contact lens 7 'and / or the watch 7' can also be used. A multiple of any type of projection unit can also be used in the system according to the invention. The system according to the invention can also be provided with a plurality of RFID tags that are attached to animals and devices. Instead of RFID labels, other types of labels can also be used that can be read out wirelessly. Such variants are each understood to fall within the scope of the invention.

Claims (58)

A farm system provided with a portable unit that can be carried by a user for supplying information to the user, characterized in that the portable unit is designed as a projection unit adapted to be attached to a head (or arm) of a user and which is arranged to project the information into at least one eye of the user. A farm system according to claim 1, characterized in that the projection unit is designed as glasses. A farm system according to claim 2, characterized in that the projection unit is adapted to project the information through at least one glass of the glasses into the at least one eye. A farm system according to claim 1, characterized in that the projection unit is designed as a contact lens. A farm system according to any one of the preceding claims, characterized in that the system is arranged to determine a position and identity of an animal. A farm system as claimed in any one of the preceding claims, characterized in that the system is further provided with at least one RFID tag worn by an animal, the system being provided with at least one reader to output an identification code from the RFID tag to determine the identity of the animal. A farm system according to claim 6, characterized in that the system is adapted to determine the position of the RFID tag and hence the position of the animal. A farm system according to any one of the preceding claims, characterized in that the system is provided with at least one portable label on which an identification code is displayed and wherein the projection unit is provided with a camera for reading the identification code of the label for determining the identity of the animal. A farm rice system according to claim 5, characterized in that the system is further adapted to project information about the determined position in the eye with the aid of the projection unit, possibly in combination with the determined identity of the animal. A farm system as claimed in claim 5, characterized in that the system is further adapted to determine a position of the projection device and to project information about an identified animal in the at least one eye if that animal enters the farm according to a predetermined criterion. proximity to the projection unit. A farm system according to claim 10, characterized in that the system is adapted to determine with the aid of the projection unit in which direction a user is looking and to display information about an animal in the eye of the user if that animal is moving according to a predetermined criterion, is in the direction that the user is looking. A farm system according to claim 5, characterized in that the system is adapted to display information of an animal with the aid of the projection unit, wherein this information relates to the identified animal. A farm system according to any one of the preceding claims, characterized in that the projection unit is further adapted to supply sound to at least one ear of the user. A farm system according to claim 13, characterized in that the system is adapted to supply information in the form of spoken word to the at least one ear. A farm system as claimed in claim 5 and as claimed in claim 13 or 14, characterized in that the system is adapted to provide information about the determined position of the animal in the form of sound to at least one ear of the user by means of the projection unit. to be fed possibly in combination with the determined identity of the animal. A farm system at least according to claim 15, characterized in that the system is adapted to supply the audio information about the position of the animal in the form of spoken text to the at least one ear. A farm system according to claim 5 and according to claim 13 or 14, characterized in that the system is further adapted to determine a position of the projection device and information about an identified animal in the form of sound, for example in the form of spoken text to be delivered to the ear if that animal is in the vicinity of the projection unit according to a predetermined criterion. A farm system according to claim 17, characterized in that the projection unit is adapted to determine in which direction a user is looking and information about an animal in the form of sound, for example in the form of spoken text at the ear of the user if that animal is in the direction that the user is looking according to a predetermined criterion. A farm system as claimed in claim 5 or 6, characterized in that the system is adapted to supply information from an animal in the form of sound to the at least one ear with the aid of the projection unit, the information relating to the identified animal. A farm system according to any one of the preceding claims, characterized in that the projection unit is provided with at least one sensor for detecting a movement of the user. A farm system according to claim 20, characterized in that the projection unit is arranged to detect a movement of at least one eye of the user. A farm system according to claim 20, characterized in that the projection unit is arranged to detect a movement of at least one of the user's head, hand or arm. A farm system according to claim 20, 21 or 22, characterized in that the system is arranged to process the information about a detected movement, the information comprising commands from the user for the system, for example for controlling a feeding machine or milking robot of the system, and / or wherein this processed information about the detected movement relates to data generated by the user, for example by observing an animal or a farm machine, which data is stored in the system. Farm system according to one of the preceding claims, characterized in that the projection unit is provided with at least one sensor for detecting a noise from the user. A farm system according to claim 24, characterized in that the projection unit is adapted to detect a sound from the mouth of the user. A farm system according to claim 24, characterized in that the projection unit is adapted to detect a sound made with an arm, hand and / or leg of the user. A farm system according to claim 24, 25 or 26, characterized in that the system is arranged to process the information about a detected sound, said processed information comprising commands from the user for the system, for example for controlling an automatic feeder or milking robot of the system, and / or wherein the information about the detected sound relates to data generated by the user, for example through observation of an animal or a farm machine, which data is stored or processed in the system. A farm system as claimed in any one of the preceding claims, characterized in that the projection unit is also adapted to detect image and / or sound of an environment of the user and possibly to further process or store it. A farm rice system according to any one of the preceding claims, characterized in that the farm system is further provided with a computer in which the computer and the projection unit are wirelessly connected to each other and in which in particular the computer is arranged to provide information to the projection -unit for supplying to the user and / or wherein in particular the computer is adapted to further process information generated by the projection unit. A farm system according to claim 29, characterized in that the system is adapted to send visual information from the computer to the projection unit, the projection unit being adapted to project this information into at least one eye. A farm system as claimed in claim 29 or 30, characterized in that the system is adapted to send information about sound from the computer to the projection unit, the projection unit being adapted to supply this information to the at least one ear. A farm system according to claim 30, characterized in that the system is arranged such that the information which, in use by the projection unit, is projected into the eye is generated by the computer and via the wireless connection to the projection unit is supplied. A farm system according to claim 31, characterized in that the system is arranged such that the information, in use by the projection unit, supplied to the at least one ear is generated by the computer and via the wireless connection to the projection unit is supplied. Farm system according to claims 5, 6 or 7 and according to claim 29, characterized in that the computer is adapted to project information about the determined position in the eye with the aid of the projection unit, possibly in combination with the determined identity of the animal. A farm system according to claims 6 and 34, characterized in that the computer is communicatively connected to the reader of claim 6 for supplying the identification code to the computer. A farm system according to claim 7 and according to claim 34 or 35, characterized in that the system is further provided with a positioning device for determining the RFID tag of claim 7 and for supplying information about the determined position to the computer of the RFID label. A farm system as claimed in claims 5 and 29, characterized in that the system is furthermore provided with a positioning device for determining the position of the projection unit and wherein the positioning device is communicatively connected to the computer for supplying information to the computer about the determined position of the projection unit wherein the computer is arranged to determine according to a predetermined criterion whether an animal identified by the system is in the vicinity of the projection unit and, if so, information about the identified animal at supplying the projection unit for projecting information about the identified animal in the at least one eye. A farm system according to claim 37, characterized in that the computer is adapted to determine in which direction a user is looking with the aid of the projection unit and to supply information about an animal to the projection unit for projection purposes. unit projecting this information in the eye of the user if the animal is in the direction in which the user is looking according to a predetermined criterion. A farm system according to claim 6, characterized in that the computer is adapted to display information of an animal with the aid of the projection unit, wherein this information relates to the identified animal. A farm system according to claims 13 and 29, characterized in that the computer is adapted to supply information in the form of spoken word to the at least one ear. A farm system according to claims 5 and 29 and according to claim 13 or 14, characterized in that the computer is adapted to use information on the determined position of the animal in the form of sound on at least one ear of to feed the user, possibly in combination with the determined identity of the animal. A farm system at least according to claim 41, characterized in that the computer is adapted to supply the audio information about the position of the animal in the form of spoken text to the at least one ear with the aid of the projection unit. Farm system according to claims 5 and 29 and according to claim 13 or 14, characterized in that the system is further adapted to determine a position of the projection unit and to supply this information to the computer, the computer being arranged to determine whether an animal is in the vicinity of the projection unit according to a predetermined criterion, the computer being further adapted to, if this criterion is met, the information about an identified animal in the form of sound, e.g. form of spoken text to the projection unit for supplying this information to the ear with the projection unit. A farm system according to claim 43, characterized in that the computer is adapted to determine in which direction a user is looking with the aid of the projection unit and to supply information about an animal to the projection unit for projection purposes. unit supplying this information to an ear of the user if the animal is in the direction in which the user is looking according to a predetermined criterion. A farm system according to claim 6, characterized in that the computer is adapted to supply information from an animal in the form of sound to the at least one ear with the aid of the projection unit, the information relating to the identified animal. A farm system according to claim 20, 21 or 22 and claim 29, characterized in that the computer is arranged to process the information about a detected movement, the information comprising commands from the user for the computer, for example for control a computer of a feeding machine or milking robot of the system, and / or wherein this processed information about the detected movement relates to data generated by the user, for example by observing an animal or a farm machine, which data is stored, for example, in the computer is being saved. Farm system according to claim 24, 25 or 26 and according to claim 29, characterized in that the computer is adapted to process the information about a detected sound, said processed information comprising commands from the user for the system, for example for controlling a feeding machine or milking robot of the system with the computer, and / or wherein the information about the detected sound relates to data generated by the user, for example by observing an animal or a farm machine which data is stored by the user computer. A farm system according to claim 46, characterized in that the system is adapted to wirelessly supply information about a movement of the user detected with the projection unit to the computer. A farm system according to claim 47, characterized in that the system is adapted to wirelessly supply information about a detected sound from the user to the computer. A farm system as claimed in claims 28 and 29, characterized in that the system is adapted to wirelessly supply detected sound to the computer with the projection unit for further processing by the computer. A farm system as claimed in claims 28 and 29, characterized in that the system is adapted to wirelessly supply detected image with the projection unit to the computer for further processing by the computer. A farm system according to claim 51, characterized in that the computer is adapted to identify an animal in the image. A farm system according to any one of the preceding claims, characterized in that the system is arranged to determine the position of the projection unit. A farm system according to claims 5 and 29, characterized in that the computer is adapted to selectively supply information to the projection unit in response to a specific identity of the animal and / or a specific position of the animal. projection in the at least one eye and / or for supply to the at least one ear in the system according to at least one of claims 13-18. 55. A farm system according to any one of claims 20-23 and according to claim 29, characterized in that the computer is arranged, in response to a detected movement, which comprises information about a user-determined identity of the animal or a certain position of the animal. user selectively supplying information to the projection unit for projection into the at least one eye and / or for feeding to the at least one ear in the system according to at least one of claims 13-18. A farm system according to claims 8 and 29, characterized in that the system is adapted to supply the determined identity of the animal to the computer for further processing. A farm system according to any one of the preceding claims, characterized in that the system is adapted to supply a 3D image to both eyes of a user with the aid of the projection unit. A farm system according to at least claim 29, characterized in that the computer is provided with a computer system which is provided with a plurality of computer devices (such as Servers, PCs, etc.) which are communicatively connected to each other.