ACM

Communications of the ACM

Home/Magazine Archive/July 2014 (Vol. 57, No. 7)/Community Sense and Response Systems: Your Phone as.../Abstract

Contributed articles

Community Sense and Response Systems: Your Phone as Quake Detector

By Matthew Faulkner, Robert Clayton, Thomas Heaton, K. Mani Chandy, Monica Kohler, Julian Bunn, Richard Guy, Annie Liu, Michael Olson, MingHei Cheng, Andreas Krause
Communications of the ACM, July 2014, Vol. 57 No. 7, Pages 66-75
10.1145/2622633
Comments

View as: Print Mobile App ACM Digital Library In the Digital Edition Share:

Community Sense and Response Systems: Your Phone as Quake Detector, illustration — Credit: Hitandrun

The proliferation of smartphones and other powerful sensor-equipped consumer devices enables a new class of Web application: community sense and response (CSR) systems, distinguished from standard Web applications by their use of community-owned commercial sensor hardware. Just as social networks connect and share human-generated content, CSR systems gather, share, and act on sensory data from users' Internet-enabled devices. Here, we discuss the Caltech Community Seismic Network (CSN) as a prototypical CSR system harnessing accelerometers in smartphones and consumer electronics, including the systems and algorithmic challenges of designing, building, and evaluating a scalable network for real-time awareness of dangerous earthquakes.

Key Insights

Worldwide, approximately two million Android and iOS devices have been activated every day since 2012, each carrying numerous sensors and high-speed Internet connection. Several recent sensing projects have sought to partner with the owners of these and other consumer devices to collect, share, and act on sensor data about phenomena that could affect millions of lives. Coupled with cloud computing platforms, these networks can achieve vast coverage previously beyond the reach of sensor networks.⁶ Boulos et al.⁵ includes an excellent overview of how the social and mobile Web facilitate crowdsourcing data from individuals and their sensor devices. Additional applications of community and participatory sensing include understanding traffic flows,^4,14,16,20 identifying sources of environmental pollution,^1,2 monitoring public health,¹⁸ and responding to natural disasters like hurricanes, floods, and earthquakes.^8,9,11,15 These systems are made possible through volunteer sensors and low-cost Web solutions for data collection and storage. However, as the systems mature, they will undoubtedly extend beyond data collection and take real-time action on behalf of the community; for example, traffic networks can reroute traffic around a crash, and a seismic network can automatically slow trains to prevent derailment.

No entries found

Log in to Read the Full Article

Sign In

Sign in using your ACM Web Account username and password to access premium content if you are an ACM member, Communications subscriber or Digital Library subscriber.

Need Access?

Please select one of the options below for access to premium content and features.

Create a Web Account

If you are already an ACM member, Communications subscriber, or Digital Library subscriber, please set up a web account to access premium content on this site.

Join the ACM

Become a member to take full advantage of ACM's outstanding computing information resources, networking opportunities, and other benefits.

Subscribe to Communications of the ACM Magazine

Get full access to 50+ years of CACM content and receive the print version of the magazine monthly.

Purchase the Article

Non-members can purchase this article or a copy of the magazine in which it appears.

Your Phone as Quake Detector.