Abstract: A work machine includes: a body including: a body frame; an exhaust gas cleaning device disposed at a back portion of the body; and a bumper disposed at a back portion of the body and extending backward, wherein the exhaust gas cleaning device has a back end backward of a back end of the body frame, and the bumper has (i) a back end backward of the back end of the exhaust gas cleaning device and (ii) an upper end below an upper end of the body frame.

Abstract: A rotatable ring control mechanism is mounted on a control arm of a riding mower and allows a user to control a function of the riding mower. The mechanism includes an inner support component and an outer interface ring. The inner component secures the mechanism to the control arm and includes a signal generating technology receiving a control input and generating a corresponding control signal. The outer ring rotates around the inner component and around a longitudinal axis of the control arm to provide the control input to the signal generating technology.

Abstract: A work machine includes: a body including: a body frame; an exhaust gas cleaning device disposed at a back portion of the body; and a bumper disposed at a back portion of the body and extending backward, wherein the exhaust gas cleaning device has a back end backward of a back end of the body frame, and the bumper has (i) a back end backward of the back end of the exhaust gas cleaning device and (ii) an upper end below an upper end of the body frame.

Abstract: A locking bracket and methods of using the same are disclosed. The locking bracket includes a rigid body and a locking pin slidably and rotatably coupled to the rigid body and movable between an unlocked position and a locked position. An engagement member can enter and exit the rigid body when the locking pin is in the unlocked position but is locked to the rigid body when the locking pin is in the locked position. Optionally, the rigid body may include a guide portion that guides the engagement member to a mounting position within the rigid body. The methods include swinging an attachment component towards a main body until the engagement member engages the locking bracket coupled to the main body, removing the locking pin from the unlocked position, and locking the attachment component to the bracket by placing the locking pin in the locked position.

Abstract: A medical device includes a housing having a distal portion with a probe extending therefrom. The housing is graspable by a user to manipulate the housing and the probe. The medical device further includes a pressure sensing system including a pressure sensor and a processing unit coupled with the pressure sensor. The pressure sensor is configured to be carried by the probe. The processing unit is carried by the housing and is configured to receive input signals from the pressure sensor. The medical device further includes an output unit coupled to the processing unit and carried by the housing. The output unit is configured to output a reporting signal to a display. The reporting signal is indicative of a pressure at the pressure sensor.

Abstract: Methods and devices for detecting positioning of a probe in a tissue of a patient. A method can include providing a detection device; advancing a device coupled probe through the tissue of the patient and toward the patient's target tissue; detecting a change in pressure about the distal portion of the coupled probe during advancing, where the detected pressure change indicates probe positioning in a vein or artery of the patient; outputting the detected pressure change or indication of probe positioning to a visual display.

Abstract: Methods and structures for detecting a physiologic parameter of a target anatomical environment. The device including a housing with a distal portion first port couplable to a probe and a proximal portion; and a sensing unit, a processing unit, and an output unit carried by the housing, the output unit configured to output a reporting signal based on the determined physiologic parameter value such as pressure; the sensing unit, processing unit, and output unit being disposed substantially between the first port and the proximal portion of the housing.

Abstract: Methods and structures for detecting a physiologic parameter of a target anatomical environment. The device including a housing with a distal portion first port couplable to a probe and a proximal portion; and a sensing unit, a processing unit, and an output unit carried by the housing, the output unit configured to output a reporting signal based on the determined physiologic parameter value such as pressure; the sensing unit, processing unit, and output unit being disposed substantially between the first port and the proximal portion of the housing.

Abstract: Methods and devices for detecting positioning of a probe in a tissue of a patient. A method can include providing a detection device; advancing a device coupled probe through the tissue of the patient and toward the patient's spinal canal; detecting a change in pressure about the distal portion of the coupled probe during advancing, where the detected pressure change indicates probe positioning in the patient's spinal canal; outputting the detected pressure change or indication of probe positioning to a visual display.

Abstract: Methods and structures for detecting a physiologic parameter of a target anatomical environment. The device including a housing with a distal portion first port couplable to a probe and a proximal portion; and a sensing unit, a processing unit, and an output unit carried by the housing, the output unit configured to output a reporting signal based on the determined physiologic parameter value such as pressure; the sensing unit, processing unit, and output unit being disposed substantially between the first port and the proximal portion of the housing.

Abstract: Methods and devices for detecting positioning of a probe in a tissue of a patient. A method can include providing a detection device; advancing a device coupled probe through the tissue of the patient and toward the patient's spinal canal; detecting a change in pressure about the distal portion of the coupled probe during advancing, where the detected pressure change indicates probe positioning in the patient's spinal canal; outputting the detected pressure change or indication of probe positioning to a visual display.

Abstract: Methods and structures for detecting a physiologic parameter of a target anatomical environment. The device including a housing with a distal portion first port couplable to a probe and a proximal portion; and a sensing unit, a processing unit, and an output unit carried by the housing, the output unit configured to output a reporting signal based on the determined physiologic parameter value such as pressure; the sensing unit, processing unit, and output unit being disposed substantially between the first port and the proximal portion of the housing.

Abstract: Methods and devices for detecting positioning of a probe in a tissue of a patient. A method can include providing a detection device; advancing a device coupled probe through the tissue of the patient and toward the patient's spinal canal; detecting a change in pressure about the distal portion of the coupled probe during advancing, where the detected pressure change indicates probe positioning in the patient's spinal canal; outputting the detected pressure change or indication of probe positioning to a visual display.

Abstract: Methods and structures for detecting a physiologic parameter of a target anatomical environment. The device including a housing with a distal portion first port couplable to a probe and a proximal portion; and a sensing unit, a processing unit, and an output unit carried by the housing, the output unit configured to output a reporting signal based on the determined physiologic parameter value such as pressure; the sensing unit, processing unit, and output unit being disposed substantially between the first port and the proximal portion of the housing.

Abstract: Methods and devices for detecting positioning of a probe in a tissue of a patient. A method can include providing a detection device; advancing a device coupled probe through the tissue of the patient and toward the patient's spinal canal; detecting a change in pressure about the distal portion of the coupled probe during advancing, where the detected pressure change indicates probe positioning in the patient's spinal canal; outputting the detected pressure change or indication of probe positioning to a visual display.

Abstract: Methods and devices for detecting positioning of a probe in a tissue of a patient. A method can include providing a detection device; advancing a device coupled probe through the tissue of the patient and toward the patient's target tissue; detecting a change in pressure about the distal portion of the coupled probe during advancing, where the detected pressure change indicates probe positioning in a vein or artery of the patient; outputting the detected pressure change or indication of probe positioning to a visual display.

Abstract: A system is provided for providing automated washing and verifying compliance of use. The system provides for identifying individual users of one or more cleaning stations through various technologies, such as RFID. Individual's use of cleaning stations is monitored to determine compliance with hand-washing requirements. A compliance report may be generated based on data associated with one or more individuals' use of the cleaning station(s). Educational and/or entertainment content may be displayed to the user when he or she is using the cleaning station. Additionally, the cleaning station may identify containers having authorized consumables such as soap or disinfectant. Optional automated collection and forwarding of hygiene compliance information is performed to provide compliance monitors, such as a regulatory agency, with such information.

Abstract: The present invention is directed to a hybrid locomotive that can operate in a multitude of operational modes, including a slug operating mode, an energy storage operating mode, a B-locomotive operating mode, an independent operating mode, and a power source operating mode, and/or can provide electrical energy to an external power distribution system, such as a power grid, catenary, and third rail.

Abstract: A locomotive is provided that includes: a receiver operable to receiving a locating signal, the locating signal indicating a current spatial location of a selected locomotive and a processor operable to (a) determine that the selected locomotive has entered, is entering, and/or is about to enter a spatial zone having at least one controlled parameter, the controlled parameter being at least one of a fuel combustion emissions level and a noise level and (b) configure the operation of the selected locomotive to comply with the controlled parameter.