Abstract: This application relates to improvements in environments for microbial testing. Exemplary embodiments provide a uniquely configured tray containing an environment conditioning material, such as an oxygen scavenger material, for use with a cassette assembly. Furthermore, some embodiments provide a cutting mechanism that allows the tray to be reliably breached, thereby exposing the material inside to the environment. Some embodiments can cut open the material with specially-configured cutter teeth, which can easily be deployed by twisting or pushing two halves of the cassette assembly.

Abstract: This application relates to improvements in environments for microbial testing. Exemplary embodiments provide a uniquely configured tray containing an environment conditioning material, such as an oxygen scavenger material, for use with a cassette assembly. Furthermore, some embodiments provide a cutting mechanism that allows the tray to be reliably breached, thereby exposing the material inside to the environment. Some embodiments can cut open the material with specially-configured cutter teeth, which can easily be deployed by twisting or pushing two halves of the cassette assembly.

Abstract: A system, method, and wireless earpieces for managing power settings. Sensor measurements are performed utilizing a first sensor array of the wireless earpieces to detect light and motion. Sensor measurements are performed utilizing a second sensor array of the wireless earpieces to detect light and motion. The sensor measurements are analyzed from the first sensor array and the second sensor array. A determination is made whether a change event is detected in response to the sensor measurements. The change event is confirmed as detected. The wireless earpieces enter a full power mode in response to the change event being confirmed.

Abstract: An earpiece wearable includes an earpiece wearable housing, an intelligent control system disposed within the ear piece wearable housing, and an operating system associated with the intelligent control system for the earpiece wearable wherein the operating system provides for a user of the earpiece to choose between a plurality of software applications to execute on the intelligent control system. A method includes installing on the earpiece wearable a plurality of different software applications and selecting one of the plurality of software applications to execute on the intelligent control system of the earpiece wearable using the operating system of the earpiece wearable.

Abstract: A system, method, and wireless earpieces for managing power settings. Sensor measurements are performed utilizing a first sensor array of the wireless earpieces to detect light and motion. Sensor measurements are performed utilizing a second sensor array of the wireless earpieces to detect light and motion. The sensor measurements are analyzed from the first sensor array and the second sensor array. A determination is made whether a change event is detected in response to the sensor measurements. The change event is confirmed as detected. The wireless earpieces enter a full power mode in response to the change event being confirmed.

Abstract: A smart sock system in embodiments of the present invention may have one or more of the following features: (a) a smart sock, comprising, (i) one or more materials fitted to at least a foot of a user, (ii) one or more integrated sensors for measuring information associated with a user located within the one or more materials, and (iii) a transceiver wirelessly communicating the information, (b) one or more wireless earpiece worn in ears of the user in operative communication with the smart sock transceiver, (c) a battery powering the sensors and transceiver, and (d) a processor for processing the information for communication through the transceiver.

Abstract: A system, method, and wireless earpieces for managing power settings. Sensor measurements are performed utilizing a first sensor array of the wireless earpieces to detect light and motion. Sensor measurements are performed utilizing a second sensor array of the wireless earpieces to detect light and motion. The sensor measurements are analyzed from the first sensor array and the second sensor array. A determination is made whether a change event is detected in response to the sensor measurements. The change event is confirmed as detected. The wireless earpieces enter a full power mode in response to the change event being confirmed.

Abstract: A set of wireless earpieces includes a left wireless earpiece comprising an earpiece housing sized and shaped to fit into an external auditory canal of a user, a speaker disposed within the earpiece and positioned to transduce audio towards a tympanic membrane associated with the external auditory canal of the user, a right wireless earpiece comprising an earpiece housing sized and shaped to fit into an external auditory canal of a user, a speaker disposed within the earpiece and positioned to transduce audio towards a tympanic membrane associated with the external auditory canal of the user, and wherein the left earpiece and the right earpiece are adapted to process sound in order to alter perception of the sound to match a pre-determined point of view for the user.

Abstract: A system, method, and wireless earpieces for managing power settings. Sensor measurements are performed utilizing a first sensor array of the wireless earpieces to detect light and motion. Sensor measurements are performed utilizing a second sensor array of the wireless earpieces to detect light and motion. The sensor measurements are analyzed from the first sensor array and the second sensor array. A determination is made whether a change event is detected in response to the sensor measurements. The change event is confirmed as detected. The wireless earpieces enter a full power mode in response to the change event being confirmed.

Abstract: An earpiece wearable includes an earpiece wearable housing, an intelligent control system disposed within the ear piece wearable housing, and an operating system associated with the intelligent control system for the earpiece wearable wherein the operating system provides for a user of the earpiece to choose between a plurality of software applications to execute on the intelligent control system. A method includes installing on the earpiece wearable a plurality of different software applications and selecting one of the plurality of software applications to execute on the intelligent control system of the earpiece wearable using the operating system of the earpiece wearable.

Abstract: A set of wireless earpieces includes a left wireless earpiece comprising an earpiece housing sized and shaped to fit into an external auditory canal of a user, a speaker disposed within the earpiece and positioned to transduce audio towards a tympanic membrane associated with the external auditory canal of the user, a right wireless earpiece comprising an earpiece housing sized and shaped to fit into an external auditory canal of a user, a speaker disposed within the earpiece and positioned to transduce audio towards a tympanic membrane associated with the external auditory canal of the user, and wherein the left earpiece and the right earpiece are adapted to process sound in order to alter perception of the sound to match a pre-determined point of view for the user.