An apparatus for determining an angle of a handle of a pipe bender includes a sensor configured to determine an orientation angle of the sensor and a display configured to display the orientation angle of the sensor. The apparatus further includes a housing configured to attach to the handle of the pipe bender. The sensor is within the housing.

Disclosed herein are system, method, and computer program product embodiments for the detection of human presence in front of a plurality of sensors such as those of speakers and a device with a processor, such as a television. Data gathered from the plurality of sensors may be analyzed by the processor to determine if one or more humans are present proximate to the device. Based on the determined presence or absence of one or more humans, further actions including, inter alia, activating a sleep mode for the one or more humans, shutting off the device in a green mode, or alerting an owner-user to the presence of an intruder can be taken.

A bar glass tracking system, including a trackable glass, a sensor strip to detect when the trackable glass has passed over the sensor strip, and a computing device to communicate with the sensor strip to keep track of a number of times the trackable glass has passed over the sensor strip.

Disclosed herein are methods, systems, and devices for dynamically adjusting a user interface provided by an external unit of a hearing device. In an example method, the external unit determines whether a state of the external unit is one of (i) a coupled state when the external unit and the stimulation unit are coupled or (ii) a decoupled state when the external and the stimulation unit are decoupled. The external unit then provides one of (i) a first user interface when the determined state is the coupled state or (ii) a second user interface when the determined state is the decoupled state.

Presented herein are techniques for dynamically changing how a recipient-associated device (e.g., external component and/or user device linked to an external component) interacts with a user based on whether the external component of a medical device system is coupled to the recipient. In particular, a recipient-associated device in accordance with embodiments presented herein provides a first type of user interaction while the external component is coupled to the recipient, but the recipient-associated device provides a second (and different) type of user interaction when the external component is uncoupled/decoupled from the recipient (e.g., dynamically adjusting a user interface provided by a recipient-associated device based on whether the external component is coupled or decoupled from the recipient).

A system and method for configuring data-center equipment that is reliant on a power distribution system. A data-processing system receives an indication of a device whose electrical power is being configured. The data-processing system identifies a plurality of candidate electrical outlets that are available for use and then evaluates those candidate outlets. The data-processing system can evaluate the candidate outlets based on one or more of i) the metadata of each electrical outlet in the plurality of candidate outlets, ii) the power redundancy associated with each electrical outlet, and iii) the power capacity associated with a power chain of each electrical outlet. This results in a set of identifiers of qualifying candidate electrical outlets. The data-processing system can rank the outlets in terms of their distances from the device and/or effects on electrical phase balance. The data-processing system then displays identifiers of the ranked, qualifying outlets.

Methods, systems, and devices for dynamically adjusting a user interface provided by an external unit of a hearing device. In an example method, the external unit determines whether a state of the external unit is one of (i) a coupled state when the external unit and the stimulation unit are coupled or (ii) a decoupled state when the external and the stimulation unit are decoupled. The external unit then provides one of (i) a first user interface when the determined state is the coupled state or (ii) a second user interface when the determined state is the decoupled state. The second user interface provides access to a greater number of functions of the hearing device than first user interface provides.

Presented herein are techniques for dynamically changing how a recipient-associated device (e.g., external component and/or user device linked to an external component) interacts with a user based on whether the external component of a medical device system is coupled to the recipient. In particular, a recipient-associated device in accordance with embodiments presented herein provides a first type of user interaction while the external component is coupled to the recipient, but the recipient-associated device provides a second (and different) type of user interaction when the external component is uncoupled/decoupled from the recipient (e.g., dynamically adjusting a user interface provided by a recipient-associated device based on whether the external component is coupled or decoupled from the recipient).

Presented herein are techniques for dynamically changing how a recipient-associated device (e.g., external component and/or user device linked to an external component) interacts with a user based on whether the external component of a medical device system is coupled to the recipient. In particular, a recipient-associated device in accordance with embodiments presented herein provides a first type of user interaction while the external component is coupled to the recipient, but the recipient-associated device provides a second (and different) type of user interaction when the external component is uncoupled/decoupled from the recipient (e.g., dynamically adjusting a user interface provided by a recipient-associated device based on whether the external component is coupled or decoupled from the recipient).

Presented herein are techniques for dynamically changing how a recipient-associated device (e.g., external component and/or user device linked to an external component) interacts with a user based on whether the external component of a medical device system is coupled to the recipient. In particular, a recipient-associated device in accordance with embodiments presented herein provides a first type of user interaction while the external component is coupled to the recipient, but the recipient-associated device provides a second (and different) type of user interaction when the external component is uncoupled/decoupled from the recipient (e.g., dynamically adjusting a user interface provided by a recipient-associated device based on whether the external component is coupled or decoupled from the recipient).