Underwater construction
In onshore construction it is not difficult to mark out an area with a theodolite and GPS-based special devices. It has not been possible to make a sufficiently accurate topographic reference underwater up until recently. Now our RedWAVE underwater GPS system enables you to do this nearly as well as on land. Determining the location in absolute geographic coordinates makes it possible to stage a more accurate topographical reference and to control the location of various objects during underwater construction, with the possibility of overlaying on maps and satellite images. Coordination of activities by means of our RedPhone system, which provides underwater wireless voice communication, will speed up the work process to the maximum and increase work safety.
Prospecting and SAR
With the RedWAVE it is now possible to designate a search route in advance, which can be varying for different search teams, including both divers and ROVs. This will provide simultaneous work of all teams in the water area, thereby significantly reducing the search time, something that is particularly important in the case of rescue operations, when human life may depend on time. With the RedNav diver navigation receivers, you can mark points of interest and return to them another time, proceeding directly from the desired location. Working with absolute geographic coordinates makes it easier and faster than ever before to coordinate search teams and make the best decisions based on the most reliable and up-to-date information. We offer the RedPhone underwater wireless voice communication system to provide voice coordination of various search teams and individual divers with an above-water dive tracking station.
Underwater Cartography
Cartography is the area of expertise in which accurate topography is of paramount importance. There no way to take aerial photographs, get satellite photos of the underwater landscape, or use GPS geodetic systems underwater. We provide a unique opportunity to obtain absolute geographic coordinates underwater simultaneously for an unlimited number of devices in the same waters.
Underwater cartography is closely intertwined with underwater archeology, marine biology and geology. All of these branches of science require most accurate geographic positioning of underwater sites. Today, this is possible with our RedWave system.
Object positioning in test tanks
Special conditions are required for the operation of acoustic systems in various water tanks and other testing facilities. Their size and volume are usually incomparably smaller than natural ponds, and the walls and structural elements are made of concrete or steel, both materials with very low absorption of acoustic waves. The size and shape of such tanks determine the character of multibeam propagation, which differs significantly from that in lakes, rivers, and seas. We are currently testing a unique system designed for precise positioning of objects in such special conditions as those present in special tanks and testing facilities. A typical example of such reservoirs would be various canals, waste ponds, storage ponds for radioactive, chemical or other hazardous waste, where, by definition, it is impossible for divers to be present, and all the works have to be done remotely using robots. In the nearest future, we will present users with the ability to solve underwater navigation tasks in such challenging conditions.
Underwater machine control
We provide the user with the widest range of telecommand capabilities for various subsea objects. Zima transponder beacons support data pairing with the carrier (ROV/AUV), which makes it possible to forward up to 32 targeted control commands and to transmit telemetry information from the carrier.
If the task does not require positioning, we are pleased to recommend the RedGTR code modems, which have the ability to transmit up to 64 short code messages in a network of up to 20 subscribers.
An innovative and unparalleled system of Underwater Internet of Things with a Hadean specialized protocol allows to support up to 256 dynamically addressable network nodes transmitting telemetry and user data, up to 250 4-command nodes of actuator control and up to 49 20-command nodes of actuator control. Broadcast commands are possible for both types of actuator control nodes. The system provides access to the underwater sensor network from the Internet and also enables positioning of all network nodes with the support of floating amphibious (i.e. dual-media) access points.