Sanitag Technologies Corporation AT004H ユーザーズマニュアル
Setting Up Devices & RF Netwowk
1-1
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COMPANY. COPYRIGHT NOTICES MAY NOT BE REMOVED
1.
SETTING UP DEVICES & RF NETWORK
Rest of the manual guides you through the steps necessary for setting up and configuring
your Sanitag devices. Please read this manual before system setup.
your Sanitag devices. Please read this manual before system setup.
1.1. Safety
The device must be used solely with its original power adaptor. Please note that the
adapter is 110/220V AC
adapter is 110/220V AC
1.2. Introduction
Sanitag devices are based on 2.4GHZ IEEE 802.15.4 compliant RF wireless network. To
form a minimal 802.15.4 RF Network, you should have at least 1-Router, 1-Reader and
Mobile Devices.
Main coordinator (router) establishes a mesh network once it is installed. Each plugged
reader (receiver), attends this network automatically and relays data for the network. All
reader nodes cooperate in the distribution of data in the network.
Sanitag’s small sized newborn baby tag is affixed to the ankle of the newborn infant to be
tracked. The tag contains an RF transmitter circuit. It transmits message signal,
comprising unique identity information, to receivers which are strategically placed within
the hospital. The message is propagated along a path by hopping from node to node until
it reaches the port wihch is being listened by the Location Provider Service software.
Location Provider Software calculates tags’ positions by using RSSI (received signal
strength indicator) levels, dimensions of the region to be tracked and fixed position
information of the receivers on that region.
form a minimal 802.15.4 RF Network, you should have at least 1-Router, 1-Reader and
Mobile Devices.
Main coordinator (router) establishes a mesh network once it is installed. Each plugged
reader (receiver), attends this network automatically and relays data for the network. All
reader nodes cooperate in the distribution of data in the network.
Sanitag’s small sized newborn baby tag is affixed to the ankle of the newborn infant to be
tracked. The tag contains an RF transmitter circuit. It transmits message signal,
comprising unique identity information, to receivers which are strategically placed within
the hospital. The message is propagated along a path by hopping from node to node until
it reaches the port wihch is being listened by the Location Provider Service software.
Location Provider Software calculates tags’ positions by using RSSI (received signal
strength indicator) levels, dimensions of the region to be tracked and fixed position
information of the receivers on that region.
Figure 1- Component Interoperability