1. Using height sensors for biometric identification in multi-resident homes
Vijay Srinivasan, John Stankovic, Kamin Whitehouse
University of Virginia

2. Identifying (and locating) residents in smart homes
Important problem for smart homes
Elderly monitoring
Home energy conservation
Bedroom #2
Kitchen
Cooking
Bathroom
Toileting
Who is cooking?
Who is toileting?
Living Room
The problem that we are addressing in this paper is how to identify and locate multiple residents living in smart homes.
To illustrate, we show a smart home with an elderly husband and a wife, with the wife toileting in the bathroom, and the husband cooking in the kitchen. Assume we have instrumented the home with motion sensors, that tell us if someone is currently in a room, and with contact sensors on daily objects, such as the flush and the microwave that tell us when they are being used.
The problem we are trying to solve in this paper is to identify who is currently cooking, and who is currently toileting.
This is an important problem for smart home applications. For example, elderly monitoring applications need to know who is visiting the toilet more, or who is sleeping more?
Home energy conservation applications need to know who is currently in a room, or who is using more energy in order to respond appropriately. And there are numerous other smart home applications that will inevitably need this information in the future…
Bedroom #1
Front Door

3. Existing solution space
Tag and Track
Strong Biometrics
Floor sensing
Cost, effort, aesthetics
Inconvenient
Activity patterns
Before we go on to describe our proposed approach, we take a minute to discuss existing approaches and their shortcomings.
Tag and track approaches track a resident by asking them to wear a tracking device, and use radio ranging or inertial sensing to track them. People also use strong biometrics such as fingerprint readers or retina scanners. However, these sensors are inconvenient to the user because they require the user to manually wear a device or identify themselves.
Cameras can also be used, along with vision techniques, but this sensor is perceived to be invasive by residents for long term monitoring in homes.
Floor sensors can be used to identify residents using their gait or weight, but this sensor requires high setup effort, cost, and also impacts home aesthetics
Past studies have also used residents’ activity patterns based on passive sensors such as motion or switch sensors, but we observe that these techniques have too low an accuracy for our applications.
Cameras
Perceived to be Invasive
Low accuracy

4. Height as a biometric
Go Motion Ultrasonic ranger
Ultrasonic distance sensor mounted above doorways to measure height
Cheap, convenient, non-invasive
Height as a biometric
Generally considered weak
Especially for large populations (school, restaurant …)
In this work, we explore the use of resident height as a biometric. We use an ultrasonic sensor mounted above the doorway to measure the height of a resident as they pass through.
Our solution is cheap …
However, height is generally considered a weak biometric, since many residents in a large population can have the same height. We found that … Such a large height difference means that our solution will not work …

5. However, in homes … Height sensing is an excellent biometric A home
Has few residents (2-4)
Allows for improved biometric accuracy using spatio-temporal continuity of resident movement
95% wife
5% husband
Bedroom #2
Kitchen
Cooking
Bathroom
40% wife
60% husband
Toileting
Living Room
Biometric error
Filtered by tracking
However, in a home with only a few residents, it is more likely that our approach will perform very accurately, since it is more likely that all residents
Also, in a home, residents move through rooms in predictable ways constrained by the floor layout. Suppose the initial state is … Suppose then that … But we see a misclassification … However, suppose then that … Now, we see an event that suggests that it is resident …
Bedroom #1
Front Door
3.25 cm difference gives
99% accuracy
7 cm difference gives
99% accuracy

6. Contributions Biometric solution with ultrasonic height sensors
Improve accuracy with in-home tracking
Perform comprehensive evaluation
Controlled studies, In-situ studies, National applicability study
Potential to achieve 95% identification accuracy in 95% multi-resident elderly homes in US
Enable convenient, non-invasive smart homes

7. Rest of the talk Height sensor setup Evaluation of biometric accuracy
Improvement using track history
Conclusion and Future work

8. Height sensor setup Ultrasonic range finder above doorway
Go Motion Ultrasonic ranger
Ultrasonic range finder above doorway
Distance from travel time of echo
Reports only minimal distance (to head rather than shoulder)
50 KHz pulses
cone divergence

9. Biometric identification
Temporal clustering
Height = default - min(Cluster)
Given n resident heights, and probabilistic error models
Resident identity = MLE
default

10. Rest of the talk Height sensor setup Evaluation of biometric accuracy
Improvement using track history
Conclusion and Future work

11. Public height data from ~2100 multi-resident homes
Evaluation Overview
Goals: Evaluate biometric accuracy
Across a large sample of real subjects
In-situ environments
At a nationwide scale
20 subjects in the lab
3 homes for 5 days each
Public height data from ~2100 multi-resident homes

12. Evaluation in the lab 20 graduate student subjects
True heights measured
Stand
Walk 42 times. Vary
Width of doorway (75 , 90 cm)
Direction of walking
Speed
90 cm

13. Biometric accuracy For walking Log normal error distribution
High mean error due to apparent height (3.1 cm)
Low standard error (1.45)
Log normal error distribution
Accuracy sufficient?
For homes? 2-4 residents
For offices, schools? More residents …
Maximum likelihood labeling
Extrapolate to national height data set
Homes
Office/School
100 Random samples of subjects for each n

14. In-situ evaluation Deploy Ground truth resident location
Height sensors on doorways
3 homes for 5 days
Motion sensors in rooms
A few contact sensors
Ground truth resident location
Radio ranging with Motetrack tags
Height
sensor
Contact
switch
Motetrack beacon
Motion
sensor

15. In-situ evaluation Compute room visits by temporal clustering
Room visit labeling accuracy for
Height sensing – ML labeling
Activity patterns from binary sensing (STAR particle filter)
Discuss results
Height sensing very accurate in our test homes
Activity patterns based on binary sensing not as accurate

16. Nationwide evaluation
Public data set with heights and weights of residents
2107 multi-resident homes (US)
For each resident in each home, extrapolate error distribution for
Height (log normal) from empirical study
Weight (normal) from Jenkins et al, Pervasive 2006
Analytically compute probability of correct Maximum Likelihood labeling
85% homes at 95% accuracy!

17. Rest of the talk Height sensor setup Evaluation of biometric accuracy
Improvement using track history
Conclusion and Future work

18. Using track history Simulation study of home with n residents
HMM to generate room transitions
Height sensor noise from empirical error distribution
1000 height events generated
Use multi-hypothesis tracking approach to compute best sequence of height sensor assignments
95% wife
5% husband
Bedroom #2
Kitchen
Cooking
Bathroom
40% wife
60% husband
Toileting
Living Room
Biometric error
Filtered by tracking
Bedroom #1
Front Door
3.25 cm difference gives
99% accuracy
7 cm difference gives
99% accuracy

19. Improvements 95% homes at 95% accuracy!
Apply simulation study to 2107 multi-resident homes

20. Rest of the talk Height sensor setup Evaluation of biometric accuracy
Improvement using track history
Conclusion and Future work

21. Conclusions
Biometric height sensor solution for identification in homes
Potential to achieve 95% identification accuracy in 95% multi-resident elderly homes in US
Enable new generation of convenient, non-invasive smart home apps
Energy saving, entertainment, passive elderly health …

22. Open issues and future work
Location granularity
Activities in same room?
Multi-path noise from adjacent height sensors
Multi-modal identification
Laser rangefinders for height, width
Color sensors, …
Power efficient design
Trigger ultrasonic using PIR?
Breakdown scenarios? Guests, crutches …

23. Current status
Time
Distance reading in mm In
Out
Direction classification – 100% accuracy for this example

24. Thank you
Questions, feedback?