Innovative Interaction Paradigms using Mobile Location-based ...

New Interaction Paradigms using Mobile Location-Based Services

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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AR Navigation INSTAR – Information and Navigation Systems Through AR

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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AR Navigation INSTAR – Information and Navigation Systems Through AR

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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AR Navigation INSTAR – Information and Navigation Systems Through AR

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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AR Navigation INSTAR – Information and Navigation Systems Through AR

Method and Device for Displaying Driving Instructions, especially in Car Navigation Systems EU, Patent EP 1 415 128 B1 USA, Patent US 7,039,521 B2 GER, Patent DE 102 36 221 C 1

Method and Device for Displaying Navigational Information for a Vehicle USA, Patent US 7,216,035 B2

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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AR Navigation The Solution

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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AR Navigation Impressions

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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AR Navigation The Future

Location Address Time Context Smartness

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Initial Paradigm Draw Gestures and Read with See-Though Displays

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Geo Gate Location-Triggered Interaction Paradigm

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Geo Display Location-Triggered Interaction Paradigm

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Geo Advertising Location-Triggered Interaction Paradigm

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Geo Advertising Location-Triggered Interaction Paradigm

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Geo Message (SMS) Location-Triggered Interaction Paradigm

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Technology Location-Triggered Interaction Paradigm

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Technology Location-Triggered Interaction Paradigm

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Technology Location-Triggered Code Execution

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Sensor Types For Location-Triggered Code Execution

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Geo Logistics Hödlmayr Real Use-Case

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Special Forces “Cobra” Real Use-Case

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Smart Information Campus Real Use-Case

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Indoor Localization Fingerprinting System (JKU and Siemens)

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Indoor Localization Fingerprinting System (JKU and Siemens)

Tracking Engine

LBS Framework

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Indoor Localization Fingerprinting System (JKU and Siemens)

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Indoor Localization Fingerprinting System (JKU and Siemens)

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Indoor Localization Future Aspects – Rotating Antennas

AP1

AP2

Mobile Device

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Energy Consumption for Location Determination

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Energy Consumption for Location Determination Technology

Accuracy

Precision

Energy

A-GPS

10m

95%

6,616Ws

WiFi

50m

90%

2,852Ws

Cell-Id

5km

65%

1,013Ws

U. Bareth and A. Kupper, “Energy-Efficient Position Tracking in Proactive Location-Based Services for Smartphone Environments,” 2011 IEEE 35th Annual Computer Software and Applications Conference, July 2011, pp. 516–521

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Energy Consumption Finite State Machine for Energy Savings Start

A background & moving & unobserved & no POIs & Δt > 3min &

Best Accuracy 1

3

iOS: Best For Navi (1) Android: GPS+Network

background & not moving & Δt > 2min

Background Mode

B

foreground | observed | POI near |

5

2

moving C

Less Accuracy iOS: Kilometer (5) Android: Network

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

Region Monitoring 4 background & not moving

iOS and Android: via system event

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Energy Consumption Implementations in App “Spotnick”

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Energy Consumption HTC Desire HD / Android 2.3.5 Standby 100 % GPS 9,7 % GPS + HTTP 7,5 % Spotnick 65,5 % Improvement operating times 8,7 times longer compared to worst case Standby time is 13,3 times longer

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Energy Consumption iPhone 4S / iOS 6.01 Standby 100 % GPS 8,1 % GPS + HTTP 7,9 % Spotnick 50,5 % Improvement operating times 6,3 times longer compared to worst case Standby time is 12,6 times longer

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Accuracy iPhone 4S / iOS 6.01

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Accuracy HTC Desire HD / Android 2.3.5

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Accuracy Limitations

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Recent Projects VIATOR – Interaction Paradigms for Disabled People

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Prospect Individual Navigation Instructions

In 50m turn left Turn left now! After the gate turn left

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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Prospect Innovative Interaction Paradigms using LBS

Wolfgang Narzt, UBICOMM 2013, Porto, Portugal

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