2005-12-31
Your NameYour Title
Your Organization (Line #1)Your Organization (Line #2)
WSN in enhancing exercise experience in personal fitness
Goran Rakočević [email protected] Crnjin [email protected]
2/16
Agenda
Introduction to WSN in fitness and sportsBody Area Network
Bluetooth PAN profile
Bluetooth Body Area Network formation
Exercise Environment sensor network
Central server
Case study :Smart Running Track
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WSN technology in fitness and sports
Create an smart exercise environment that:tracks users movementmonitors and stores his vital parametersgives users feedback in order to make the exercisemore efficient/safe and to motivate him
Three major subsystems:
Body area network
Exercise Environment sensor network
Central server
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Sensor Body Area Network
A network of sensor devices monitoring user's vital parameters
ecg, SpO2, pulse, blood pressure, pedometer...
Deployed on the user's body
Bluetooth technology is ideal for this application!
BAN also incorporates means to deliver information to the user (mobile phone, PDA, etc.)
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Bluetooth PAN Profile
Allows a Bluetooth device to join a piconetand access LAN resources or a WAN networkvia a Bluetooth Network Access Point (NAP) Supports IPv4 and IPv6
NAP acts as the masterUp to 7 PAN Users (PANUs) can join the piconet
However, Bluetooth PAN does not specify a network formation procedure!
6/16
PAN network formation
We're only interested in AdHoc network formation!The SAPFIO network formation procedure(Jovnik, Van Thanh, “Ad-hoc Formation of Bluetooth Piconet for data communication”, 2002)
All devices start symmetric inquiry procedure of all BT devices within rangeWhen every device detects all other devices within range,they will inform their neighbors about detected devicesAll devices can now form tables of all devices and their possible connections in the the future piconetAll nodes with outside connection and highest numberof connections are considered candidates for the MasterIf more than one device are candidates,the one with highest address is selected
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PAN network formation (2)
Main parameter in SAPFIO is number of detected nodesIn a Body Area Network it can be assumedthat all nodes have connectivity to all other nodes
=>number of detected nodes is uselessas a parameter for choice of master node
A new ad-hoc network formation procedurethat takes into account specifics of a BAN is needed
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BAN network formation protocol
Every node is in range of every other nodeMore than one node can serve as the NAPAbility of a node to serve as a NAP changes over timeNodes rarely leave and join the network
Procedure:All nodes that can serve as NAPs go into symmetric discovery modeOnce all possible NAPs know about all of the other,a NAP is chosen among them (by type and BADDR value)NAP goes into discoverable mode and starts operating
All other nodes connect to the NAP (followed by a role switch)
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BAN network formation protocol (2)
If NAP loses outside connectivity (or battery gets low)a new NAP must be chosen
Current NAP notifies all other nodes to go to short-term no-connection mode (e.g. locally buffering the data)
Current NAP choses the next NAP and requests a connection status update (to check whether it has an outside connection)
If the response is positivethe NAP checks it's own connection again(to avoid network reconfiguration on short outside connection loses),otherwise next NAP candidate is contacted
If still no connection, all nodes are informed of the new NAP
Old NAP closes all connection, new network is formed around the new NAP
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Exercise enviorment sensor network
A network of sensors deployed in the exercise environmentMonitors the environmental parameters of the surroundingsIn some systems also relays the information from the users' BANs to the central serverZigbee technology is best suited for this subsystem
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Central server
Gathers the data from all of the sensorsProcesses these data (according to the specific application)Stores the data for later review or further processingSends the required data back to the userAllows for the control of the whole system
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Case study: Smart Running Track
An implementation of a WSN system in fitness and sportsObjective:to make running:
more observable by trainers and physiciansmore interesting to amateur runnersmore competitive:
rank not only by their present position,but also by, for example,number of spent calories,obstacles jumped
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System architecture
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Smart Running Track BAN
Base on Shimmer nodesOn each runner sensor nodes are deployed,with the following sensors:
PedometerHeart Rate sensorTemperature sensor
This enables:Measurement of running speedHeart rate monitoringSpent calorie measurement:
calories spent = f (body weight, speed)
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Delivering information to users
BioScreen ViewCalorie countHeart rate, Body temperatureCurrent / Average Speedetc.
Map ViewShows current positions of all runners on the image of the running path
Score List ViewScore can be measured in:
Running positions
Average speed
Spent calorie count
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Central Server
Allows for:monitoring of the whole trackinsight into the vital paramtersof each of the runnerscalculates the calorie consumptionfor each of the runnerssorts the runners by the chosen critriastores data and sends them to runners
2005-12-31
Your NameYour Title
Your Organization (Line #1)Your Organization (Line #2)
WSN in enhancing exercise experience in personal fitness
Goran Rakočević [email protected] Crnjin [email protected]