Abstract: A GPS-tracked wireless-networked wheelchair system includes a wheelchair framework for carrying a passenger, and having a set of wheels adapted to rotate. A device-level machine-readable code is displayed on a surface associated with the wheelchair system. A brake assembly is arranged with the set of wheels and has a locked position, and an unlocked position. A wireless control module is operably connected to a wireless communication network. When a web-enabled mobile phone is used to (i) scan the device-level machine-readable code displayed on the wheelchair system, (ii) complete a wheelchair rental transaction over the wireless communication network, and (iii) obtain access control over the rented wheelchair system, then the wireless wheel locking control module unlocks the brake assembly, and the wheelchair framework is allowed to move relative to the ground surface.

Abstract: A wireless-networked stroller access control system includes a plurality of wireless-networked strollers, each having stroller framework for carrying a passenger, and having a set of wheels mounted on an axle. A device-level machine-readable code is displayed on a surface associated with the stroller system. A wheel brake assembly is arranged with the set of wheels and has a locked position, and an unlocked position. A manually-actuated control bar assembly is mounted on the stroller framework, arranged with respect to the wheel brake assembly, and has a locked state of operation and an unlocked state of operation. A wireless wheel-axle locking control module is arranged in wireless communication with a wireless communication infrastructure, and configured with the manually-actuated control bar assembly to control the state of operation of the manually-actuated control bar assembly and also the wheel brake assembly.

Abstract: A GPS-tracked wireless-networked electric convenience vehicle (ECV) includes a body portion adapted for supporting the body of passenger; a GPS system for providing GPS-location services to the GPS-tracked wireless-networked ECV; a transport system with wheels and a drive mechanism, for supporting and transporting the body portion; and a wireless electronic control module being integrated with the transport system, and in wireless communication with a wireless communication infrastructure, for controlling said wheels and/or the drive mechanism. When a web-enabled mobile phone is used to (i) scan a device-level machine-readable code displayed on the GPS-tracked wireless-networked ECV, (ii) complete an ECV rental transaction over the wireless communication infrastructure, and (iii) obtain access control over the rented GPS-tracked wireless-networked ECV, then the wireless electronic control module enables the GPS-tracked wireless-networked ECV to be operated on a ground surface.

Abstract: A method of contact-less access control to a device available for rental, access and use in an environment, by scanning multi-level machine-readable codes displayed in the environment using web-enabled mobile phones wirelessly connected to a wireless access control network. To practice a facility-level, site-level access and/or device-level access control method, a web-enabled mobile phone is used to scan facility-level, site-level and/or device-level machine-readable codes in the environment, and in response, rental transaction identifiers are stored within the cache on the web-enabled mobile phone scanning the machine-readable code. Each rental transaction identifier identifies the web-enabled mobile phone that is linked to a specific device rental transaction. After renting the selected device at either a facility-level, site-level or device-level location in the environment, the web-enabled mobile phone is used to scan the device-level machine-readable code on the rented device.

Abstract: A single-sided ride storage locker system deployed at any site within a facility, and providing guest visitors with access control enabled by scanning multi-level machine-readable codes using mobile scanning computing systems, such as web-enabled smartphones with digital cameras and mobile application support. The storage locker system supports automated modes of discovering and finding where a guest's rented locker is located within the facility and its sites at any moment in time, simply by using the guest' smart phone to scan a device-level code, a site-level code, a facility-level code or a discovery-level code, posted anywhere within the facility or any site, without need for using a physical locker lookup kiosk or other conventional systems and methods.

Abstract: A wireless network, mobile systems and methods for controlling access to lockers, strollers, wheel chairs and electronic convenience vehicles and other networked devices provided with machine-readable codes that are scanned by mobile phones and computing devices.

Abstract: A multi-level machine-readable code system and method deployed in an environment supported by a wireless access control system network. The multi-level machine-readable code system including multi-level codes including facility-level codes, site-level codes and device-level codes, that are scanned by mobile computing devices such as mobile smart phones to initiated web-based e-commerce-enabled transactions that allow guest users to select and rent the particular networked devices available for rental and use within a facility, such as, for example, storage lockers, strollers, EVCs, wheelchairs and the like at a site selected within the environment. The wireless access and control system network can automatically assign an available device to the guest user at the selected site.

Abstract: A wireless network, mobile systems and methods for controlling access to lockers, strollers, wheel chairs and electronic convenience vehicles and other networked devices provided with machine-readable codes that are scanned by mobile phones and computing devices.

Abstract: A double-sided ride storage locker system deployed at a park facility with ride sites, including a system integrated with a facility ride management system, for automated management and control over the operation of locker-rental state indication lights displayed as rented on the egress side of the double-sided ride storage locker system. The double-sided ride storage locker system provides guest visitors with access control enabled by scanning multi-level machine-readable codes using mobile scanning computing systems, such as web-enabled smartphones with digital cameras and mobile application support.

Abstract: A method of contact-less access control to a device available for rental, access and use in an environment, by scanning multi-level machine-readable codes displayed in the environment using web-enabled mobile phones wirelessly connected to a wireless access control network. To practice a facility-level, site-level access and/or device-level access control method, a web-enabled mobile phone is used to scan facility-level, site-level and/or device-level machine-readable codes in the environment, and in response, rental transaction identifiers are stored within the cache on the web-enabled mobile phone scanning the machine-readable code. Each rental transaction identifier identifies the web-enabled mobile phone that is linked to a specific device rental transaction. After renting the selected device at either a facility-level, site-level or device-level location in the environment, the web-enabled mobile phone is used to scan the device-level machine-readable code on the rented device.

Abstract: A single-sided ride storage locker system deployed at any site within a facility, and providing guest visitors with access control enabled by scanning multi-level machine-readable codes using mobile scanning computing systems, such as web-enabled smartphones with digital cameras and mobile application support. The storage locker system supports automated modes of discovering and finding where a guest's rented locker is located within the facility and its sites at any moment in time, simply by using the guest' smart phone to scan a device-level code, a site-level code, a facility-level code or a discovery-level code, posted anywhere within the facility or any site, without need for using a physical locker lookup kiosk or other conventional systems and methods.

Abstract: A GPS-tracked wireless-networked wheelchair system includes a wheelchair framework for carrying a passenger, and having a set of wheels adapted to rotate. A device-level machine-readable code is displayed on a surface associated with the wheelchair system. A brake assembly is arranged with the set of wheels and has a locked position, and an unlocked position. A wireless control module is operably connected to a wireless communication network. When a web-enabled mobile phone is used to (i) scan the device-level machine-readable code displayed on the wheelchair system, (ii) complete a wheelchair rental transaction over the wireless communication network, and (iii) obtain access control over the rented wheelchair system, then the wireless wheel locking control module unlocks the brake assembly, and the wheelchair framework is allowed to move relative to the ground surface.

Abstract: A wireless-networked stroller access control system includes a plurality of wireless-networked strollers, each having stroller framework for carrying a passenger, and having a set of wheels mounted on an axle. A device-level machine-readable code is displayed on a surface associated with the stroller system. A wheel brake assembly is arranged with the set of wheels and has a locked position, and an unlocked position. A manually-actuated control bar assembly is mounted on the stroller framework, arranged with respect to the wheel brake assembly, and has a locked state of operation and an unlocked state of operation. A wireless wheel-axle locking control module is arranged in wireless communication with a wireless communication infrastructure, and configured with the manually-actuated control bar assembly to control the state of operation of the manually-actuated control bar assembly and also the wheel brake assembly.

Abstract: A GPS-tracked wireless-networked electric convenience vehicle (ECV) includes a body portion adapted for supporting the body of passenger; a GPS system for providing GPS-location services to the GPS-tracked wireless-networked ECV; a transport system with wheels and a drive mechanism, for supporting and transporting the body portion; and a wireless electronic control module being integrated with the transport system, and in wireless communication with a wireless communication infrastructure, for controlling said wheels and/or the drive mechanism. When a web-enabled mobile phone is used to (i) scan a device-level machine-readable code displayed on the GPS-tracked wireless-networked ECV, (ii) complete an ECV rental transaction over the wireless communication infrastructure, and (iii) obtain access control over the rented GPS-tracked wireless-networked ECV, then the wireless electronic control module enables the GPS-tracked wireless-networked ECV to be operated on a ground surface.

Abstract: One embodiment of an electric convenience vehicle (ECV) may include a frame, a plurality of wheels configured to support and move the frame, a user support member supported by the frame, a steering mechanism disposed toward a front portion of the ECV, a motor configured to cause at least one wheel to be propelled forward, propelled backward, or to remain in a fixed position, a throttle, when activated in a first position, may cause the motor to propel the wheel(s) in a forward direction, when activated in a second position, may cause the motor to propel the wheel(s) in a reverse direction, and a control and communications unit (CCU) disposed in front of the user support member, and configured to control operations of the motor.

Abstract: One embodiment of an electric convenience vehicle (ECV) may include a frame, a plurality of wheels configured to support and move the frame, a user support member supported by the frame, a steering mechanism disposed toward a front portion of the ECV, a motor configured to cause at least one wheel to be propelled forward, propelled backward, or to remain in a fixed position, a throttle, when activated in a first position, may cause the motor to propel the wheel(s) in a forward direction, when activated in a second position, may cause the motor to propel the wheel(s) in a reverse direction, and a control and communications unit (CCU) disposed in front of the user support member, and configured to control operations of the motor.

Abstract: One embodiment of an electronics convenience vehicle (ECV) may include a frame, a plurality of wheels configured to support and move the frame, a seat supported by said frame, a steering mechanism disposed toward a front portion of the ECV, a motor configured to cause at least one wheel to be propelled forward, propelled backward, or to remain in a fixed position, a throttle, when activated in a first position, causes said motor to propel said at least one wheel in a forward direction, when activated in a second position, causes said motor to propel said at least one wheel in a reverse direction, at least one sensor directed to detect objects in front of a direction of travel of the ECV, and a control and communications unit (CCU) disposed in front of said seat, and configured to receive said sense signals and to control operations of said motor.