Abstract: A system for determining a load status of an asset container, comprising: a first tape node having a first low-power wireless-communications interface and a first camera, the first tape node operable to capture and transmit a first image; and a second tape node, comprising: a second camera; a second low-power wireless-communication interface; a processor; and memory communicatively coupled with the processor and storing machine-readable instructions that, when executed by the processor, cause the processor to: receive, from the first tape node, the first image; capture a second image using the second camera; perform computer vision techniques on the first and second images to generate the load status of the asset container; and transmit the load status to a nearby node.

Abstract: A method and system for replacing a first wireless node in an IoT system includes determining, by the first wireless node, that the first wireless node needs imminent replacement. The determination may be made, for example, based on a battery of the first wireless node being below a threshold level. The first wireless node initiates a discovery protocol for a second wireless node installed in proximity to the first wireless node, the second wireless node installed to replace the first wireless node. Upon discovery of the second wireless node, the first wireless node transmits a configuration file to the second wireless node, which the second wireless node copies to a storage of the second wireless node. The second wireless node configures itself to operate as a replacement for the first wireless node in the IoT system, based at least in part on the copied configuration file.

Abstract: Apparatus and methods prepare an adhesive tape platform with a battery for disposal at an end of its useful life. The adhesive tape platform determines when it is at the end of its useful life and performs an action to drain remaining battery life of the battery. When remaining life in the battery is less than a threshold level, the adhesive tape platform transmits a ready for disposal notification to an Internet of Things (TOT) system of the adhesive tape platform. The adhesive tape platform may determine its life expectancy and operational phases of the adhesive tape platform and assign battery usage for each of the operational phases such that the battery is depleted at an end of a last one of the operational phases. The adhesive tape platform may activate battery draining circuitry to drain the remaining battery life of the battery.

Abstract: A wireless sensing system, comprising at least one tape node, each tape node adhered to a respective asset, comprising at least one sensor, the at least one tape node having a first processor, a first memory communicatively coupled with the first processor, the first memory storing machine-readable instructions that, when executed by the first processor, cause the first processor to: capture, by the at least one sensor of the at least one tape node, environmental data; generate, based on the captured environmental data, at least one environmental profile; determine, based on comparing the environmental profile to an accepted environmental profile, that a difference between the environmental profile and an accepted environmental profile satisfies a predetermined threshold; and responsive to the difference satisfying the threshold, generate a notification that includes instructions to perform an action.

Abstract: Systems, methods, and computer-readable data storage apparatus provide automated identification techniques that seamlessly and accurately bridge the differences between different identification systems to enable more useful and advanced product and service offerings, such as realtime tracking of shipment location and status.

Abstract: Methods, systems, and computer program products for creating a monitoring network are described. A server associates a master wireless node with a package in a first set of associated packages. The server and the master wireless node communicate with one another over first type of wireless communications interface. The server also associates a peripheral wireless node with another package in the set and with the master node. The peripheral wireless node and the master wireless node communicate with one another over a second type of wireless communications interface. The peripheral node includes a sensor operative to generate sensor data by sensing an environmental condition. The master wireless node processes the sensor data to generate one or more package-level statistics of the processed sensor data.

Abstract: A method for multi-phase monitoring, comprising: receiving a first set of data associated with a monitoring agent during a first phase of an itinerary for monitoring an asset; determining the first phase of the itinerary is complete; receiving a second set of data relating to a second phase of the itinerary, the second set of data defining a phase requirement for implementing the second phase; determining an agent capability of the monitoring agent; comparing the agent capability to the phase requirement; and performing an action based on whether the phase requirement is capable of being met by the monitoring agent.

Abstract: A tracking system includes a plurality of tape nodes, each including a battery, a short-range wireless interface, a processor, and a memory storing a liquid operating system (OS) having machine readable instructions that when executed by the processor cause the processor to receiving, within the tape node, a mission defining at least one goal for the tape node, the tape node acting as a master agent of the tracking system to complete each of a plurality of tasks defined by the mission, managing power usage of the battery to complete the mission, the liquid OS delegating the task to another node of the tracking system to reduce power usage; performing a second task received from a second node, the tape node acting as a slave in response to the second task.

Abstract: A method includes instructing a first sensing device to enter a first state, the first state comprising a first set of functions and behavior for the sensing device. The first sensing device is instructed to aggregate sensing data, the sensing data comprising measurements of the property of the surroundings of the first sensing device measured by the at least one sensor. Relevant data from the aggregated sensing data is stored on one of a memory of the first sensing device, a database of a central database and control system associated with the first sensing device, and a memory of a client device. It is determined that a first event has occurred based on the aggregated sensing data, and responsive to the determining that the first event has occurred, the first sensing device is instructed to enter a second state.

Abstract: A wireless sensing system includes a gateway node configured to wirelessly communicate with a plurality wireless nodes in an environment, and a first set of the plurality of wireless nodes, each wireless node of the first set configured to wirelessly communicate with the gateway node and to wirelessly communicate with other wireless nodes of the plurality of wireless nodes, each wireless node of the first set comprising a same first group identifier. The gateway node is configured to address the first set of the plurality of the wireless nodes by addressing all wireless nodes in the environment that broadcast the first group identifier.

Abstract: The present disclosure relates to wireless sensor networks installation, deployment, maintenance, and operation. A distributed network of wireless tags enable a wide variety of different indoor and outdoor applications to be implemented, including asset finding, workflow automation, and internet-of-things applications. The physical premises environment may be any location in which there are persons, places or things to be monitored, tracked, sensed, or inventoried, or other defined space. The distributed network of wireless tags is associated with a wireless client device that enables a customer to configure and retrieve status data, event data, and sensor data from wireless tags and other components in the physical premises environment. Embodiments utilize different types of network nodes to collect data from the physical premises environment. Examples of the types of data that may be collected by the wireless tags include asset status information, event data, and sensor data.

Abstract: A plurality of tape agents includes an autonomous master wireless tape agent. The autonomous wireless tape agent includes a first wireless communications interface type operative to communicate over a wireless communications link with an associated secondary wireless agent. The autonomous master wireless tape agent corresponds to a child node in a wireless agent hierarchy. The secondary wireless agent includes a second wireless communications interface type that has a longer wireless communications range than a wireless communications range of the first wireless communications interface type. The secondary wireless agent corresponds to a parent node in the wireless agent hierarchy. The master wireless tape agent governs the wireless communications link and traffic between the master wireless tape agent and the secondary wireless agent. The master wireless tape agent is operative to schedule a designated time slot for each secondary wireless agent transmission.

Abstract: A flexible sensor device includes a device layer including at least a first sensor configured to measure sensor data relevant to an object of interest, a flexible electronics layer including flexible circuit connected to the first sensor, a flexible substrate located between the flexible electronics layer and a first adhesive layer, a flexible tape cover that is on the device layer opposite the flexible substrate, the flexible tape cover covering the device layer, and a coupling element, located in a first aperture, the coupling element coupling the first sensor to the object of interest when the sensor device is attached to the object of interest. The first aperture is in one of the flexible substrate and the flexible substrate, overlapping the first sensor and exposing the coupling element to the object of interest.

Abstract: An IoT sampling system that includes a set of adhesive tape platforms. Each adhesive tape platform has zero or more wireless transducing circuits applied according to a sampling frequency that is based on a predetermined criteria. Each applied wireless transducing circuit further having a predetermined role and on one or more features based on the predetermined criteria.

Abstract: A low-cost task specific device system for scheduling tasks that are performed by one or more devices is described. After a preceding task is performed, the performance of a successive task is delayed for a task-specific recharge interval associated with the preceding task. The successive task is performed after the task-specific recharge interval has expired.

Abstract: In some implementations, a wireless sensing system may receive sensor data associated with an asset. The sensor data may be associated with a tampering event and the tampering event may include an action performed on the asset. The wireless sensing system may further determine whether the tampering event is performed by an authorized user of the wireless sensing system. The wireless sensing system may further determine whether the tampering event is performed within an authorized location of the wireless sensing system. The wireless sensing system may transmit a notification to a user of the wireless sensing system. The notification may alert the user of the wireless sensing system that the tampering event has occurred.

Abstract: A low-cost, multi-function adhesive wireless communications and transducer platform with a form factor that unobtrusively integrates one or more transducers and one or more wireless communication devices in an adhesive product system. In an aspect, the adhesive product system integrates transducer and wireless communication components within a flexible adhesive structure in a way that not only provides a cost-effective platform for interconnecting, optimizing, and protecting the constituent components but also maintains the flexibility needed to function as an adhesive product that can be deployed seamlessly and unobtrusively into various applications and workflows, including sensing, notification, security, and object tracking applications, and asset management workflows such as manufacturing, storage, shipping, delivery, and other logistics associated with moving products and other physical objects.

Abstract: Methods, systems, and computer program products for creating a monitoring network are described. A server associates a master wireless node with a package in a first set of associated packages. The server and the master wireless node communicate with one another over first type of wireless communications interface. The server also associates a peripheral wireless node with another package in the set and with the master node. The peripheral wireless node and the master wireless node communicate with one another over a second type of wireless communications interface. The peripheral node includes a sensor operative to generate sensor data by sensing an environmental condition. The master wireless node processes the sensor data to generate one or more package-level statistics of the processed sensor data.

Abstract: The disclosure features a method of creating a communications network. In this method, a first tape node includes a first type of wireless communication interface and a second type of wireless communication interface having a longer range than the first type of wireless communication interface. A second tape node includes the first type of wireless communication interface that is operable to communicate with the first tape node over a wireless communication connection established between the first type of wireless communication interfaces of the first and second tape nodes. Over a wireless communication connection, the first tape node sends programmatic code executable by the first tape node to function as a master tape node with respect to the second tape node.

Abstract: A sensing system includes a first wireless sensor device configured to generate sensor data on an object of interest and communicate with a first wireless node, the first wireless node configured to communicate with the first wireless sensor device and a section node, and the section node configured to communicate with the first wireless node and a server, and the server. The first wireless node is located within a communication range of the first communication interface of the first wireless sensor device and is configured to receive the generated sensor data. The first wireless node analyzes the received sensor data to determine whether events relevant to the object of interest have occurred.