Abstract: A remote controlled lighter-than-air drone assembly that is capable of prolonged flight. The drone assembly utilizes a balloon structure. Separately, a reservoir is provided for holding a smaller second volume of gas. A propulsion system and a control unit are carried by the balloon structure. The control unit selectively transfers the gas from the reservoir to the balloon structure, and selectively vents the gas as needed. A receiver is used to receive command signals from an external source. The command signals are utilized to operate the propulsion system. An electronics suite is provided that can be altered depending upon duties. The electronics suite is used to scan or otherwise monitor an area below the drone assembly. In flight, the balloon structure is translucent and internally illuminated. A projector can be provided for projecting images onto the interior of the balloon structure.

Abstract: A lighter-than-air toy drone having at least one balloon that is inflated with a lift gas. The drone has a first conduit progresses along a first axis and a second conduit that progresses along a perpendicular second axis. At least one motorized propeller is provided that can selectively moving air through the first conduit and the second conduit to propel the drone. The motorized propeller can also generate a gyroscopic force that acts to rotate said at least one balloon for directional steering.

Abstract: A remote controlled lighter-than-air drone assembly that is capable of prolonged flight. The drone assembly utilizes a balloon structure. Separately, a reservoir is provided for holding a smaller second volume of gas. A propulsion system and a control unit are carried by the balloon structure. The control unit selectively transfers the gas from the reservoir to the balloon structure, and selectively vents the gas as needed. A receiver is used to receive command signals from an external source. The command signals are utilized to operate the propulsion system. An electronics suite is provided that can be altered depending upon duties. The electronics suite is used to scan or otherwise monitor an area below the drone assembly. In flight, the balloon structure is translucent and internally illuminated. A projector can be provided for projecting images onto the interior of the balloon structure.

Abstract: A test system and method for determining the concentrations of conditioning chemicals in a body of managed water. A test unit is provided. The test unit has a test chamber, a supply of reagents, an array of LEDs, an optical sensor, and at least one diaphragm valve assembly. The diaphragm valve assembly is used to supply precise volumes of reagents into the test chamber. The reagents are mixed with a water sample to create a test mixture. The reagents react with the conditioning chemicals and provides a color profile. The array of LEDs shines colored light through the test mixture. The test mixture absorbs the light that corresponds to the color profile of the test mixture. The remaining light passes through the test mixture and is detected by optical sensors. The optical sensors generate data that is indicative of the concentrations of the conditioning chemicals.

Abstract: A lighter-than-air toy drone having at least one balloon that is inflated with a lift gas. The drone has a first conduit progresses along a first axis and a second conduit that progresses along a perpendicular second axis. At least one motorized propeller is provided that can selectively moving air through the first conduit and the second conduit to propel the drone. The motorized propeller can also generate a gyroscopic force that acts to rotate said at least one balloon for directional steering.

Abstract: The present invention is a system and method of operating cellular devices in a synchronized manner. Each of a plurality of mobile cellular devices has a system clock, a display screen, and a camera flash, and each mobile cellular device communicates with a communications network. A software application is loaded onto each of the cellular devices. A primary user selects a session activity that is to be performed by the cellular devices. The cellular devices first update system time to improve time synchronization. At an execution time, a session activity is performed simultaneously by all the mobile cellular devices.

Abstract: A lighting system and its method of operation that enables multiple independent light assemblies to be simultaneously controlled. The light assemblies contain a matrix of LEDs that are capable of generating different color profiles throughout a range of intensities. The light assemblies also contain a control module that controls the color profiles and the range of intensities being produced by the LEDs. A custom software application is run on a smartphone. The software application enables manual selection of the color profiles and the range of intensities, and the smartphone generates command signals that are transmitted to the light assemblies for execution. The software application generates a control screen on the smartphone that plots the color profiles against the range of intensities. The color profiles and the range of intensities are selected by touching a point on the control screen.

Abstract: A lighter-than-air toy drone assembly that stays aloft using a balloon that is filled with a lighter-than-air gas. The balloon is inflated and deflated with the gas through a remote control vent valve. A ballast chamber can be provided that is filled with and drained of ballast through a purge valve. Controlled flight is achieved by selectively controlling motorized propellers, the vent valve and the optional purge valve. The motorized propeller provides horizontal movement. The purge valve and the vent valve change the buoyancy of the drone assembly and therefore control vertical movement.

Abstract: The present invention is a system and method of operating cellular devices in a synchronized manner. Each of a plurality of mobile cellular devices has a system clock, a display screen, and a camera flash, and each mobile cellular device communicates with a communications network. A software application is loaded onto each of the cellular devices. A primary user selects a session activity that is to be performed by the cellular devices. The cellular devices first update system time to improve time synchronization. At an execution time, a session activity is performed simultaneously by all the mobile cellular devices.

Abstract: A lighter-than-air toy drone assembly that stays aloft using a balloon that is filled with a lighter-than-air gas. The balloon is inflated and deflated with the gas through a remote control vent valve. A ballast chamber can be provided that is filled with and drained of ballast through a purge valve. Controlled flight is achieved by selectively controlling motorized propellers, the vent valve and the optional purge valve. The motorized propeller provides horizontal movement. The purge valve and the vent valve change the buoyancy of the drone assembly and therefore control vertical movement.

Abstract: The present invention is a system and method of operating cellular devices in a synchronized manner. Each of the plurality of mobile cellular devices has a system clock, a display screen, a camera flash, and communicates with a communications network. A software application is loaded onto each cellular devices. A lead user selects a session activity that is to be performed by the cellular devices. The cellular devices first update system time to improved time synchronization. At an execution time, a session activity is performed simultaneously by all the mobile cellular devices.

Abstract: A system and method of monitoring and controlling the use of utilities by devices contained within a specific location. Interactive units are provided within the selected location. A server interface is provided at the location that communicates with a remote computer server. The interactive units control the operations of different devices within the selected location that consume utilities. When used, each interactive unit generates signal information indicating whether the device controlled or monitored by that interactive unit is in operation. The signal information generated by the interactive units is sent to the server interface and then a remote computer server. The server computer analyzes the signal information to determine the amount of utilities being used and enables a programmer to set automatic and selective control parameters to minimize the cost of operations for the various devices.

Abstract: A system and method of monitoring and controlling the use of utilities by devices contained within a specific location. Interactive units are provided within the selected location. A server interface is provided at the location that communicates with a remote computer server. The interactive units control the operations of different devices within the selected location that consume utilities. When used, each interactive unit generates signal information indicating whether the device controlled or monitored by that interactive unit is in operation. The signal information generated by the interactive units is sent to the server interface and then a remote computer server. The server computer analyzes the signal information to determine the amount of utilities being used and enables a programmer to set automatic and selective control parameters to minimize the cost of operations for the various devices.