Abstract: Described is a method of stimulating airways of a mammal comprising: cyclically occluding a nasal air stream at a frequency rate between 50 Hz to 650 Hz. Also described is an apparatus for stimulating airways of a mammal, comprising: a fluid connection to each of a first and second naris of the mammal; and an occluding device configured to cyclically occlude a nasal air stream within each fluid connection at a frequency rate between 100 Hz to 650 Hz.

Abstract: A method of controlled delivery of breathing gases is described, during a first mode: the breathing gas inflow is predominantly through the first naris during inhalation; and the gas outflow is predominantly through the second naris during exhalation; and during a second mode that occurs after the first mode the breathing gas inflow is predominantly through the second naris during inhalation and the gas outflow is predominantly through the first naris during exhalation. The first mode and second modes are repeated. Also described is a system and apparatus implementing the method.

Abstract: A method of controlled delivery of breathing gases is described the method comprising: applying breathing gas pressure within the first naris of a patient during inhalation; applying breathing gas pressure within the second naris of the patient during inhalation; applying breathing gas pressure within the first naris of the patient during exhalation; and applying breathing gas pressure within the second naris of the patient during exhalation, wherein the breathing gas pressure applied to the first naris during inhalation is higher than the gas pressure applied to the second naris during inhalation and the breathing gas inflow to the patient is substantially through the first naris during inhalation and wherein the breathing gas pressure applied to the first naris during exhalation is lower than the gas pressure applied to the second naris during exhalation and the gas outflow from the patient is substantially through the first naris during exhalation.

Abstract: A method of controlled delivery of breathing gases is described the method comprising: applying breathing gas pressure within the first naris of a patient during inhalation; applying breathing gas pressure within the second naris of the patient during inhalation; applying breathing gas pressure within the first naris of the patient during exhalation; and applying breathing gas pressure within the second naris of the patient during exhalation, wherein the breathing gas pressure applied to the first naris during inhalation is higher than the gas pressure applied to the second naris during inhalation and the breathing gas inflow to the patient is substantially through the first naris during inhalation and wherein the breathing gas pressure applied to the first naris during exhalation is lower than the gas pressure applied to the second naris during exhalation and the gas outflow from the patient is substantially through the first naris during exhalation.

Abstract: A zero turning radius vehicle is disclosed that has a steering and drive control mechanism that includes a steering wheel and an accelerator pedal. The mechanism includes push-pull rods to effect movement of throttle levers on motors that independently drive traction elements such as wheels or traction belts. The position of each push-pull rod can be controlled by both the steering wheel and the accelerator pedal such that both the wheel and accelerator pedal can control the throttle of each motor independently or proportionally to thereby effect a change in vehicle speed and/or direction of travel.

Abstract: A method for the deployment of long distance telecommunications services over existing cable television operator networks. Provides bypass of long distance telecommunications services directly from residential and commercial customers utilizing a bypass specific device. This device will route long distance communications, in a specific format defined in this application, to a cable operator network. Local telecommunications service are placed directly to the existing local exchange operator network. Digital information traffic directed from residential and commercial customers are directed to and managed by a specific device located in a cable television operators central office. This device is specifically tuned for digital information traffic defined in this application.