An agricultural system comprising includes a support assembly having one or more support structures and one or more propulsion units coupled to the one or more support structures. The agricultural system includes one or more actuatable work tool assemblies having one or more measurement attachments configured to perform one or more measurements of at least one of one or more objects or one or more regions within an environment. The one or more actuatable work tool assemblies may be actuated by one or more actuation systems. The agricultural system may include a controller configured to cause one or more processors to direct the one or more actuation systems to actuate the one or more actuatable work tool assemblies position to perform one or more measurements of at least one of one or more objects or one or more regions within the environment.
A sensor probe for underground soil measurement is provided. The sensor probe includes one or more first sensor circuits, one or more second sensor circuits, a power supply, and a processor. The processor is configured to control at least one of the one or more first sensor circuits or the one or more second sensor circuits. One or more of the first sensor circuits include an oscillator configured to generate a periodic wave, and a transmitter configured to transmit one or more signals. One or more of the second sensor circuits includes an oscillator configured to generate a periodic wave, and a probe element configured to receive the one or more signals via at least one of the transmitter of the one or more first sensor circuits or a transmitter of one or more additional first sensor circuits of an additional sensor probe.
G01N 27/22 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating impedance by investigating capacitance
G01D 21/02 - Measuring two or more variables by means not covered by a single other subclass
A system for proximity-based analysis for operational tracking includes one or more processors. The one or more processors receive event blocks, which include information associated with an operation. The one or more processors are further configured to generate a set of queue cycles based on the received event blocks. Each queue cycle includes at least a starting and ending event block. The one or more processors are further configured to perform a correlation analysis between the set of queue cycles and the set of evidence artifacts, where each artifact is compared to each queue cycle and assigned a correlation score for each artifact-queue cycle pair. The one or more processors are further configured to determine a representative queue cycle by identifying the queue cycle with the highest quality score, which will be stored in a database for subsequent retrieval along with the corresponding evidence artifact.
H04L 51/02 - User-to-user messaging in packet-switching networks, transmitted according to store-and-forward or real-time protocols, e.g. e-mail using automatic reactions or user delegation, e.g. automatic replies or chatbot-generated messages
H04W 4/021 - Services related to particular areas, e.g. point of interest [POI] services, venue services or geofences
H04W 4/38 - Services specially adapted for particular environments, situations or purposes for collecting sensor information
A liquid monitoring system may include a monitoring device configured to be positioned at a surface of a confined liquid body. The monitoring device may include a housing including walls defining a cavity. The monitoring device may include an internal sensing sub-system enclosed within the cavity. The internal sensing sub-system may include one or more liquid monitoring sensors configured to monitor a level, temperature, or quality of the confined liquid body. The liquid monitoring system may be configured to receive a set of liquid monitoring data from the one or more liquid monitoring sensors. The liquid monitoring system may be further configured to determine one or more liquid measurement values based on set of liquid monitoring data. The one or more liquid measurement values may include a liquid level measurement value, a temperature measurement value, or a liquid quality measurement value for the confined liquid body.
G01F 1/66 - Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by measuring frequency, phase shift or propagation time of electromagnetic or other waves, e.g. using ultrasonic flowmeters
A sensor system for collecting data regarding sub-surface material characteristics may include a multitude of sensor nodes, a data gateway, and a controller. Each sensor node may include a power supply and a communication device and the multitude of sensor nodes may include sensors distributed between underground sensor nodes and/or partially-exposed sensor nodes to collect data regarding sub-surface material characteristics. The data gateway may be coupled with any combination of the sensor nodes through wireless transmission data pathways and may receive and store at least some of the data collected by the one or more sensors. The controller may receive the data generated by the one or more sensors from the data gateway and display at least a portion of the data.
G01N 27/22 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating impedance by investigating capacitance
G01D 21/02 - Measuring two or more variables by means not covered by a single other subclass
H04L 67/12 - Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
H04L 67/568 - Storing data temporarily at an intermediate stage, e.g. caching
A liquid monitoring system may include a monitoring device configured to be positioned at a surface of a confined liquid body. The monitoring device may include a housing including walls defining a cavity. The monitoring device may include an internal sensing sub-system enclosed within the cavity. The internal sensing sub-system may include one or more liquid monitoring sensors configured to monitor a level, temperature, or quality of the confined liquid body. The liquid monitoring system may be configured to receive a set of liquid monitoring data from the one or more liquid monitoring sensors. The liquid monitoring system may be further configured to determine one or more liquid measurement values based on set of liquid monitoring data. The one or more liquid measurement values may include a liquid level measurement value, a temperature measurement value, or a liquid quality measurement value for the confined liquid body.
An agricultural system comprising includes a support assembly having one or more support structures and one or more propulsion units coupled to the one or more support structures. The agricultural system includes one or more actuatable work tool assemblies having one or more measurement attachments configured to perform one or more measurements of at least one of one or more objects or one or more regions within an environment. The one or more actuatable work tool assemblies may be actuated by one or more actuation systems. The agricultural system may include a controller configured to cause one or more processors to direct the one or more actuation systems to actuate the one or more actuatable work tool assemblies position to perform one or more measurements of at least one of one or more objects or one or more regions within the environment.
A sensor system is described. The sensor system includes one or more sensor nodes. The sensor nodes are communicatively coupled to a server by way of a network. The sensor nodes may be communicatively coupled to the network by a cellular connection or a LoRa connection to a gateway. The sensor node may measure a variety of information associated with a transport environment, a confined animal feeding environment, or another agricultural environment.
A sensor system is described. The sensor system includes one or more sensor nodes. The sensor nodes are communicatively coupled to a server by way of a network. The sensor nodes may be communicatively coupled to the network by a cellular connection or a LoRa connection to a gateway. The sensor node may measure a variety of information associated with a transport environment, a confined animal feeding environment, or another agricultural environment.
A sensor system for collecting data regarding sub-surface material characteristics may include a multitude of sensor nodes, a data gateway, and a controller. Each sensor node may include a power supply and a communication device and the multitude of sensor nodes may include sensors distributed between underground sensor nodes and/or partially-exposed sensor nodes to collect data regarding sub-surface material characteristics. The data gateway may be coupled with any combination of the sensor nodes through wireless transmission data pathways and may receive and store at least some of the data collected by the one or more sensors. The controller may receive the data generated by the one or more sensors from the data gateway and display at least a portion of the data.
G01N 27/22 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating impedance by investigating capacitance
G01D 21/02 - Measuring two or more variables by means not covered by a single other subclass
H04L 67/12 - Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
H04L 67/568 - Storing data temporarily at an intermediate stage, e.g. caching
11.
System and method for proximity-based analysis of multiple agricultural entities
A system for proximity-based analysis of multiple entities includes a first communication device associated with a first entity and an additional communication device associated with an additional entity, wherein the first communication device and the additional communication device are communicatively couplable. The system includes one or more processors communicatively coupled to at least one of the first communication device or the at least an additional communication device. The one or more processors are configured to: identify a spatial relationship between the first entity and the additional entity based on one or more signals from the first communication device or the additional communication device, identify an operation unit defined by an association between the first entity and the additional entity based on the spatial relationship between the first entity and the at least the additional entity, and report one or more characteristics of the operation unit.
H04L 51/02 - User-to-user messaging in packet-switching networks, transmitted according to store-and-forward or real-time protocols, e.g. e-mail using automatic reactions or user delegation, e.g. automatic replies or chatbot-generated messages
A sensor probe for underground soil measurement is provided. The sensor probe includes one or more first sensor circuits, one or more second sensor circuits, a power supply, and a processor. The processor is configured to control at least one of the one or more first sensor circuits or the one or more second sensor circuits. One or more of the first sensor circuits include an oscillator configured to generate a periodic wave, and a transmitter configured to transmit one or more signals. One or more of the second sensor circuits includes an oscillator configured to generate a periodic wave, and a probe element configured to receive the one or more signals via at least one of the transmitter of the one or more first sensor circuits or a transmitter of one or more additional first sensor circuits of an additional sensor probe.
G01N 27/22 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating impedance by investigating capacitance
H04L 29/08 - Transmission control procedure, e.g. data link level control procedure
G01N 9/24 - Investigating density or specific gravity of materialsAnalysing materials by determining density or specific gravity by observing the transmission of wave or particle radiation through the material
A farming system includes a field engagement unit. The field engagement unit includes a support assembly. The support assembly includes one or more work tool rail assemblies. The field engagement unit additionally includes one or more propulsion units which provide omnidirectional control of the field engagement unit. The field engagement unit additionally includes one or more work tool assemblies. The one or more work tool assemblies are actuatable along the one or more work tool rail assemblies. The farming system additionally includes a local controller. The local controller includes one or more processors configured to execute a set of program instructions stored in memory. The program instructions are configured to cause the one or more processors to control one or more components of the field engagement unit.
A system for liquid level monitoring is provided. The system may include one or more rovers configured for placement on a surface of a body of liquid, a base configured for fixed placement on land, and one or more processors configured to determine one or more liquid levels of the body of liquid. The system may also include a remote server communicatively coupled to one or more components of the system via a network. The system may be further configured to display data associated with the one or more liquid levels.
A system for liquid level monitoring is provided. The system may include one or more rovers configured for placement on a surface of a body of liquid, a base configured for fixed placement on land, and one or more processors configured to determine one or more liquid levels of the body of liquid. The system may also include a remote server communicatively coupled to one or more components of the system via a network. The system may be further configured to display data associated with the one or more liquid levels.
A self-monitoring and self-controlling smart irrigation system is provided. The smart irrigation system may include a plurality of tower control units, which tower control units include one or more processors, one or more memory units, and communication circuitry. The tower control units may be configured to determine one or more operational conditions of the smart irrigation system, to communicate to other tower control units the operational conditions, and to make adjustments based on the operational conditions. The tower control units may be configured for expedient and efficient replacement and maintenance in that they may be readily detachable from the smart irrigation system.
A self-monitoring and self-controlling smart irrigation system is provided. The smart irrigation system may include a plurality of tower control units, which tower control units include one or more processors, one or more memory units, and communication circuitry. The tower control units may be configured to determine one or more operational conditions of the smart irrigation system, to communicate to other tower control units the operational conditions, and to make adjustments based on the operational conditions. The tower control units may be configured for expedient and efficient replacement and maintenance in that they may be readily detachable from the smart irrigation system.
A01G 25/09 - Watering arrangements making use of movable installations on wheels or the like
B60K 31/00 - Vehicle fittings, acting on a single sub-unit only, for automatically controlling vehicle speed, i.e. preventing speed from exceeding an arbitrarily established velocity or maintaining speed at a particular velocity, as selected by the vehicle operator
18.
System and method for proximity-based analysis of multiple agricultural entities
A system for proximity-based analysis of multiple entities includes a first communication device associated with a first entity and an additional communication device associated with an additional entity, wherein the first communication device and the additional communication device are communicatively couplable. The system includes one or more processors communicatively coupled to at least one of the first communication device or the at least an additional communication device. The one or more processors are configured to: identify a spatial relationship between the first entity and the additional entity based on one or more signals from the first communication device or the additional communication device, identify an operation unit defined by an association between the first entity and the additional entity based on the spatial relationship between the first entity and the at least the additional entity, and report one or more characteristics of the operation unit.
A system for proximity-based analysis of multiple entities includes a first communication device associated with a first entity and an additional communication device associated with an additional entity, wherein the first communication device and the additional communication device are communicatively couplable. The system includes one or more processors communicatively coupled to at least one of the first communication device or the at least an additional communication device. The one or more processors are configured to: identify a spatial relationship between the first entity and the additional entity based on one or more signals from the first communication device or the additional communication device, identify an operation unit defined by an association between the first entity and the additional entity based on the spatial relationship between the first entity and the at least the additional entity, and report one or more characteristics of the operation unit.
A livestock management system is disclosed. The system includes a gantry assembly and a controller. The gantry assembly includes a support assembly including one or more work tool rails and one or more support structures. The gantry assembly further includes one or more propulsion units disposed on one or more support rails within a livestock facility and configured to provide movement of the support assembly along the one or more support rails. The gantry assembly further includes one or more work tool assemblies actuatable along the one or more work tool rails so to provide one or more work tool attachments selective access within the livestock facility. The controller may be configured to actuate the support assembly to along the one or more support rails and further configured to actuate the one or more work tool assemblies to along the one or more work tool rails.
A livestock management system is disclosed. The system includes a gantry assembly and a controller. The gantry assembly includes a support assembly including one or more work tool rails and one or more support structures. The gantry assembly further includes one or more propulsion units disposed on one or more support rails within a livestock facility and configured to provide movement of the support assembly along the one or more support rails. The gantry assembly further includes one or more work tool assemblies actuatable along the one or more work tool rails so to provide one or more work tool attachments selective access within the livestock facility. The controller may be configured to actuate the support assembly to along the one or more support rails and further configured to actuate the one or more work tool assemblies to along the one or more work tool rails.
A farming system includes a field engagement unit. The field engagement unit includes a support assembly. The support assembly includes one or more work tool rail assemblies. The field engagement unit additionally includes one or more propulsion units which provide omnidirectional control of the field engagement unit. The field engagement unit additionally includes one or more work tool assemblies. The one or more work tool assemblies are actuatable along the one or more work tool rail assemblies. The farming system additionally includes a local controller. The local controller includes one or more processors configured to execute a set of program instructions stored in memory. The program instructions are configured to cause the one or more processors to control one or more components of the field engagement unit.
A system for collecting data associated with one or more sub-surface characteristics of a material is provided. The system may include a plurality of sensor nodes configured to collect data regarding the one or more sub-surface material characteristics and transmit the collected data to a data gateway. The data gateway may be configured to receive the collected data from the plurality of sensor nodes and store the collected data in memory. The system may also include a controller configured to receive the collected data from the data gateway via a network. The controller may be further configured to display data associated with the one or more sub-surface material characteristics.
G01N 27/22 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating impedance by investigating capacitance
A system for collecting data associated with one or more sub-surface characteristics of a material is provided. The system may include a plurality of sensor nodes configured to collect data regarding the one or more sub-surface material characteristics and transmit the collected data to a data gateway. The data gateway may be configured to receive the collected data from the plurality of sensor nodes and store the collected data in memory. The system may also include a controller configured to receive the collected data from the data gateway via a network. The controller may be further configured to display data associated with the one or more sub-surface material characteristics.
G01N 27/00 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means
G01N 27/26 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating electrochemical variablesInvestigating or analysing materials by the use of electric, electrochemical, or magnetic means by using electrolysis or electrophoresis
09 - Scientific and electric apparatus and instruments
35 - Advertising and business services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Communication services, namely, transmission of voice, audio, visual images and data by telecommunications networks, wireless communication networks, the Internet, information services networks and data networks in the fields of agriculture, livestock management, construction, and manufacturing Computer hardware and software for use in programming operating, and measuring the production of automated agricultural, construction, and manufacturing systems, devices, and robots; wireless network equipment that facilitates the collection and transmission of data from mobile and internet of things (IoT) enabled devices, namely, network routers, telecommunications switches, wireless access point (WAP) devices, radio beacon machines and devices, and transponders, for use in the fields of agriculture, livestock management, construction, and manufacturing; electrical devices, namely, agricultural equipment monitors in the nature of electronic monitoring devices used to collect operational data and settings including temperature and data settings from agricultural equipment to ensure proper functioning, agricultural equipment location sensors in the nature of electronic devices for locating agricultural equipment using positioning systems or short-range network location identification services, agricultural equipment operating status sensors, and agricultural equipment operating status electronic sensors for monitoring the operating status of agricultural machines; agricultural equipment proximity sensors; wireless communication devices for voice, data, image, or video transmission in the fields of agriculture, livestock management, construction, and manufacturing Inventory management; logistics, namely, logistics in the field of livestock; business management, namely, management in the field of livestock feeding compliance Scientific data analysis services and custom development of computer software in the field of agriculture, namely, the use of sensors, maps, imagery, agricultural conditions and other data to monitor and improve agricultural production, namely, farming production and livestock production; software as a service (SAAS) services featuring software for agricultural, and livestock management, namely, livestock feeding compliance management, construction, and manufacturing; platform as a service (PAAS) services featuring computer software platforms for collecting data from a variety of remote sensors and aggregating the measured data in the cloud in the field of agriculture, namely, farming and livestock management
09 - Scientific and electric apparatus and instruments
35 - Advertising and business services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Communication services, namely, transmission of voice, audio, visual images and data by telecommunications networks, wireless communication networks, the Internet, information services networks and data networks Computer hardware and software for use in programming operating, and measuring the production of automated agricultural, construction, and manufacturing systems, devices, and robots; wireless network equipment that facilitates the collection and transmission of data from mobile and internet of things (IoT) enabled devices, namely, network routers, telecommunications switches, wireless access point (WAP) devices, radio beacon machines and devices, and transponders, for use in the fields of agriculture, livestock management, construction, and manufacturing; electrical devices, namely, agricultural equipment monitors in the nature of electronic monitoring devices used to collect operational data and settings including temperature and data settings from agricultural equipment to ensure proper functioning, agricultural equipment location sensors in the nature of electronic devices for locating agricultural equipment using positioning systems or short-range network location identification services, agricultural equipment operating status sensors, and agricultural equipment operating status electronic sensors for monitoring the operating status of agricultural machines; agricultural equipment proximity sensors; wireless communication devices for voice, data, image, or video transmission in the fields of agriculture, livestock management, construction, and manufacturing Inventory management; logistics, namely, logistics in the field of livestock; business management, namely, management in the field of livestock feeding compliance Scientific data analysis services and custom development of computer software in the field of agriculture, namely, the use of sensors, maps, imagery, agricultural conditions and other data to monitor and improve agricultural production, namely, farming production and livestock production; software as a service (SAAS) services featuring software for agricultural, and livestock management, namely, livestock feeding compliance management, construction and manufacturing; platform as a service (PAAS) services featuring computer software platforms for collecting data from a variety of remote sensors and aggregating the measured data in the cloud in the field of agriculture, namely, farming and livestock management
A farming system includes a field engagement unit. The field engagement unit includes a support assembly. The support assembly includes one or more work tool rail assemblies. The field engagement unit additionally includes one or more propulsion units which provide omnidirectional control of the field engagement unit. The field engagement unit additionally includes one or more work tool assemblies. The one or more work tool assemblies are actuatable along the one or more work tool rail assemblies. The farming system additionally includes a local controller. The local controller includes one or more processors configured to execute a set of program instructions stored in memory. The program instructions are configured to cause the one or more processors to control one or more components of the field engagement unit.
A system for collecting data associated with one or more sub-surface characteristics of a material is provided. The system may include a plurality of sensor nodes configured to collect data regarding the one or more sub-surface material characteristics and transmit the collected data to a data gateway. The data gateway may be configured to receive the collected data from the plurality of sensor nodes and store the collected data in memory. The system may also include a controller configured to receive the collected data from the data gateway via a network. The controller may be further configured to display data associated with the one or more sub-surface material characteristics.
G01N 27/00 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means
G01N 27/26 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating electrochemical variablesInvestigating or analysing materials by the use of electric, electrochemical, or magnetic means by using electrolysis or electrophoresis
A farming system includes a field engagement unit. The field engagement unit includes a support assembly. The support assembly includes one or more work tool rail assemblies. The field engagement unit additionally includes one or more propulsion units which provide omnidirectional control of the field engagement unit. The field engagement unit additionally includes one or more work tool assemblies. The one or more work tool assemblies are actuatable along the one or more work tool rail assemblies. The farming system additionally includes a local controller. The local controller includes one or more processors configured to execute a set of program instructions stored in memory. The program instructions are configured to cause the one or more processors to control one or more components of the field engagement unit.
