the typical cases of rccs of robot command center system include investigation andexplosion, disaster search and rescue, power station inspection, etc.through the fast networking technology and into thedanger zone of mini, small, autonomous and flight security robot remoteconnections, such as intelligent robot perform target search, suspicious ruledout, all kinds of monitoring information perception and submit assignments, andsubmit the information to robot for centralized display and system management;based on comprehensive integration of all kinds ofinformation to achieve the targeted control of the monitoringobject;the satellite communication system will send theinformation to the remote command center for the command decision.several robots as mobile 'eyes',according to demand, various standardized sensorsare equipped. this provides the user with an extensible situational monitoringand display,support rccs to achieve decentralized acquisitionand centralized control strategy.
therobot command center system is based on the mobile detection platform, whichcan control the dynamic operation status, environment status and securitystatus of the detection objects.thesystem has efficient and reliable data communication, visual data display,customizable warning strategy, and diversified report functions.the system user can master the state of thedetecting object in real time and make the necessary command decision;support users to quickly configure according todifferent requirements.
throughthe onboard communication base station, remote relay equipment and mobileterminal, the communication network can be quickly deployed on site, which isresponsible for the collection and transmission of video and audio information.the remote communication between the remote commandand control center is realized through the vehicle micro-communication system.
thecommander can see the robot directly on the map.the commander can also mark the location of theobject or target on the map, the road of action, etc., and share it with terminaloperation.
thevideo information of the robot is divided into digital video (miniature, smallrobot), simulation of video (flying robot). the simulation of video istransmitted to the command center via the ip network use the dvs convert to thenumber video display in the screen wall and store it on video storage server.
usingthe on-board scheduling system and the on-site dispatching terminal, the robotcontroller can be dispatched remotely.
temperatureand humidity monitoring
this systemis compatible with digital and simulated temperature and humidity collectionmodule, which has the function of temperature and humidity linkage control.
byequipped with a battery tester, to achieve real-time monitoring of the batteryvoltage, temperature, power supply current and other parameters of the battery.
visualconfiguration of the monitoring interface
themonitoring interface and monitoring information can be more clearly definedaccording to the need.
alarmanalysis and management
accordingto the alarm strategy, sound and light alarm.
thealarm details are sent to the monitor by mobile message.
systembackup and restore
periodicbackup system data to ensure system security and operation safety.
the usergroup is divided into three levels: system administrator, configurationengineer, operator.users are assigned to the corresponding working group in order to controluser permissions, prevent users overstepping their rights.
humanizedreport function, can generate graphs, forms and other forms
userscan remotely access the robot command center system via the android mobileclient.
the usercan access the monitoring system's wap website by mobile phone to realize theremote monitoring of the robot