In some examples, a system includes: a plurality of different articles of personal protection equipment (PPE) that are all controlled by a particular user, and a computing device. The computing device may include one or more computer processors configured to receive sets of data from each of the different articles of PPE, wherein each set of data is based at least in part on a type of each of the different articles of PPE; generate for display a user interface that contemporaneously includes a plurality of graphical elements that are based at least in part on at least two sets of data that correspond to at least two different articles of PPE of the plurality of different articles of PPE; and in response to receiving an indication of user input that corresponds to at least one of the plurality of graphical elements, perform at least one operation.

In some examples, a system includes a set of personal protection equipment (PPE) controlled by a particular user, wherein an article of PPE in the set of PPE is of a particular type. The computing device may be controlled by the particular user and includes one or more computer processors that: execute, based on receiving a message that is generated by the article of PPE in response to a PPE-handshake input that is unique to the particular type of the article of PPE, a set of PPE-handshake operations to establish a connection with the article of PPE; and output for display, using data received by the second communication device from the first communication device via the connection, a graphical user interface that is based at least in part on the data received from the article of PPE that sent the message.

Methods and apparatus, including computer program products, implementing and using techniques for chain of custody tracking for an object. Several sets of Internet of Things (IoT) sensors are organized in a network. Each set of sensors is configured to record one or more events relating to the object. Each event includes an event time, an event location, and an entity that is a custodian for the object at the time of the event. When the object changes custodians, proper custodianship is verified based on input from at least one set of IoT sensors.

Methods for chain of custody tracking for an object are described. Several sets of Internet of Things (IoT) sensors are organized in a network. Each set of sensors is configured to record one or more events relating to the object. Each event includes an event time, an event location, and an entity that is a custodian for the object at the time of the event. When the object changes custodians, proper custodianship is verified based on input from at least one set of IoT sensors.

An outdoor lighting system for illumination of an outdoor area, the system configured to provide dynamical control in the outdoor area, the system comprising: a plurality of luminaires configured in the outdoor area; a plurality of street devices connected with the plurality of luminaires; at least one remote processor; at least one secondary processor; a cloud to which the plurality of luminaires and the plurality of street devices are connected; and the at least one remote processor and the at least one secondary processor are connected to the cloud; wherein the plurality of luminaires and the plurality of street devices are controlled in a plurality of functional modes.

The present disclosure describes implementation of wireless sensor packages to monitor various oilfield equipment health status, such as bearing wear and detect out-of-balance condition on reciprocating rod lifts (RRLs). Equipment health data can be collected, analyzed and stored by an IoT gateway, which is a small form-factor, ruggedized, low-power Intel processor computer running a novel message-oriented middleware software stack that leverages the MQTT protocol. Data may subsequently be transmitted to a cloud service via the internet via to a datacenter through SCADA, for analysis and action.

Techniques are described herein for generating service tickets. Embodiments include receiving first button data from an internet-of-things (IOT) button, the first button data comprising button identification information that uniquely identifies the IOT button and first button state information that specifies a button state, from a plurality of button states, of the IOT button, wherein the first button data corresponds to a first button press of the IOT button. The first button data is processed using a custom function associated with a service provider to cause: determining, based on the button identification information, a service location associated with the first button press; determining, based on the first button state information, a service issue associated with the first button press; and generating a service ticket corresponding to the first button press, wherein the service ticket indicates the service location and the service issue.

Techniques are described herein for generating service tickets. Embodiments include receiving first button data from an internet-of-things (IOT) button, the first button data comprising button identification information that uniquely identifies the IOT button and first button state information that specifies a button state, from a plurality of button states, of the IOT button, wherein the first button data corresponds to a first button press of the IOT button. The first button data is processed using a custom function associated with a service provider to cause: determining, based on the button identification information, a service location associated with the first button press; determining, based on the first button state information, a service issue associated with the first button press; and generating a service ticket corresponding to the first button press, wherein the service ticket indicates the service location and the service issue.

Methods for chain of custody tracking for an object are described. Several sets of Internet of Things (IoT) sensors are organized in a network. Each set of sensors is configured to record one or more events relating to the object. Each event includes an event time, an event location, and an entity that is a custodian for the object at the time of the event. When the object changes custodians, proper custodianship is verified based on input from at least one set of IoT sensors.

Methods and apparatus, including computer program products, implementing and using techniques for chain of custody tracking for an object. Several sets of Internet of Things (IoT) sensors are organized in a network. Each set of sensors is configured to record one or more events relating to the object. Each event includes an event time, an event location, and an entity that is a custodian for the object at the time of the event. When the object changes custodians, proper custodianship is verified based on input from at least one set of IoT sensors.