Safe Community Awareness and Alerting Network (SCALE): Difference between revisions
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{{ActionCluster | {{ActionCluster | ||
|image=SCALE.jpg | |||
| | |team=IoT Dev Labs, Victory Housing, University of Maryland Baltimore County, University of Arkansas, Senseware, Sigfox, N5 Sensors, UC-Irvine, UT Dallas | ||
|leader=Dennis Linders, Dan Hoffman | |||
| team | |imagecaption=SCALE | ||
|municipalities=Montgomery County MD, Gainesville FL | |||
| leader | |status=Implemented | ||
|description=* Connect homes to detect emergency events and alert residents via phone or app, and initiate contacting first responders | |||
| imagecaption | |||
| municipalities | |||
| status | |||
| description | |||
* Connect homes to detect emergency events and alert residents via phone or app, and initiate contacting first responders | |||
* Demonstrate how to extend a connected safe home to everyone at a low-incremental cost | * Demonstrate how to extend a connected safe home to everyone at a low-incremental cost | ||
* Focus on seniors, their care givers, and property managers | * Focus on seniors, their care givers, and property managers | ||
|challenges=* Creating a standard process for collecting and storing data from various sensors operating on different platforms | |||
| challenges | |||
* Creating a standard process for collecting and storing data from various sensors operating on different platforms | |||
* Piloting new applications of existing technology | * Piloting new applications of existing technology | ||
* Scaling the project beyond the pilot stage across the County | * Scaling the project beyond the pilot stage across the County | ||
* Collaborating with service providers to maximize opportunities for seniors to connect with services via | * Collaborating with service providers to maximize opportunities for seniors to connect with services via | ||
|solutions=TBD | |||
| solutions | |requirements=* Collaborate with seniors and experts on seniors and aging and emergency management to identify potential needs of seniors living independently | ||
| requirements | |||
* Collaborate with seniors and experts on seniors and aging and emergency management to identify potential needs of seniors living independently | |||
* Engage #IoT experts to develop #IoT solutions to address the needs of seniors living independently | * Engage #IoT experts to develop #IoT solutions to address the needs of seniors living independently | ||
* Pilot #IoT solutions in the apartments of seniors living independently | * Pilot #IoT solutions in the apartments of seniors living independently | ||
* Measure ongoing success of the program and adapt program as necessary | * Measure ongoing success of the program and adapt program as necessary | ||
|kpi=* Reduced number of senior deaths from in home accidents | |||
|measurement=* Mortality statistics from the state | |||
| kpi | |standards=* Our project uses established Machine-to-Machine communications standards (MQTT) to provide real-time data to data consumers | ||
* Reduced number of senior deaths from in home accidents | |||
| measurement | |||
* Mortality statistics from the state | |||
| standards | |||
* Our project uses established Machine-to-Machine communications standards (MQTT) to provide real-time data to data consumers | |||
* Actuators and Dashboards can subscribe to data streams from any data producer | * Actuators and Dashboards can subscribe to data streams from any data producer | ||
* Most of the components of the sensing habitat are composed of open-source software and off-the-shelf hardware, allowing ready replicability | * Most of the components of the sensing habitat are composed of open-source software and off-the-shelf hardware, allowing ready replicability | ||
* The data habitat is based on a MQTT transmission protocol, with consumers subscribing only to relevant feeds, promoting scalability | * The data habitat is based on a MQTT transmission protocol, with consumers subscribing only to relevant feeds, promoting scalability | ||
|cybersecurity=TBD | |||
|impacts=* Help aging households in Montgomery County live independently more confidently | |||
| cybersecurity | |||
| impacts | |||
* Help aging households in Montgomery County live independently more confidently | |||
* Connect vulnerable residents in the County to critical services more efficiently | * Connect vulnerable residents in the County to critical services more efficiently | ||
* Prevent deaths from common accidents among seniors (e.g., fall cannot get up, unnoticed gas leak) | * Prevent deaths from common accidents among seniors (e.g., fall cannot get up, unnoticed gas leak) | ||
|demonstration=* Phase I Pilot/Demonstration: | |||
| demonstration | |||
* Phase I Pilot/Demonstration: | |||
# Network infrastructure developed | # Network infrastructure developed | ||
# Sensors deployed in volunteer resident homes | # Sensors deployed in volunteer resident homes | ||
* Phase II Deployment: | * Phase II Deployment: | ||
# Continue developing new sensors to pilot | # Continue developing new sensors to pilot | ||
|chapter=Communications Networks | |||
| supercluster | |supercluster=Public Safety | ||
| year | |year=2014, 2015, 2016, 2017 | ||
|title=Safe Community Awareness and Alerting Network (SCALE) | |||
}} | }} | ||
Latest revision as of 05:18, January 25, 2023
Safe Community Awareness and Alerting Network (SCALE) | |
---|---|
SCALE | |
Team Organizations | IoT Dev Labs Victory Housing University of Maryland Baltimore County University of Arkansas Senseware Sigfox N5 Sensors UC-Irvine UT Dallas |
Team Leaders | Dennis Linders Dan Hoffman |
Participating Municipalities | Montgomery County MD Gainesville FL |
Status | Implemented |
Document | None |
Description
- Connect homes to detect emergency events and alert residents via phone or app, and initiate contacting first responders
- Demonstrate how to extend a connected safe home to everyone at a low-incremental cost
- Focus on seniors, their care givers, and property managers
Challenges
- Creating a standard process for collecting and storing data from various sensors operating on different platforms
- Piloting new applications of existing technology
- Scaling the project beyond the pilot stage across the County
- Collaborating with service providers to maximize opportunities for seniors to connect with services via
Solutions
TBD
Major Requirements
- Collaborate with seniors and experts on seniors and aging and emergency management to identify potential needs of seniors living independently
- Engage #IoT experts to develop #IoT solutions to address the needs of seniors living independently
- Pilot #IoT solutions in the apartments of seniors living independently
- Measure ongoing success of the program and adapt program as necessary
Performance Targets
Key Performance Indicators (KPIs) | Measurement Methods |
---|---|
|
|
Standards, Replicability, Scalability, and Sustainability
- Our project uses established Machine-to-Machine communications standards (MQTT) to provide real-time data to data consumers
- Actuators and Dashboards can subscribe to data streams from any data producer
- Most of the components of the sensing habitat are composed of open-source software and off-the-shelf hardware, allowing ready replicability
- The data habitat is based on a MQTT transmission protocol, with consumers subscribing only to relevant feeds, promoting scalability
Cybersecurity and Privacy
TBD
Impacts
- Help aging households in Montgomery County live independently more confidently
- Connect vulnerable residents in the County to critical services more efficiently
- Prevent deaths from common accidents among seniors (e.g., fall cannot get up, unnoticed gas leak)
Demonstration/Deployment
- Phase I Pilot/Demonstration:
- Network infrastructure developed
- Sensors deployed in volunteer resident homes
- Phase II Deployment:
- Continue developing new sensors to pilot