First Responders on the Grid: Difference between revisions
From Modelado Foundation
imported>Wpinfold No edit summary |
imported>Wpinfold No edit summary |
||
(4 intermediate revisions by the same user not shown) | |||
Line 1: | Line 1: | ||
{{ | {{ActionCluster | ||
| title =First Responders on the Grid | | title = First Responders on the Grid | ||
| team | | team = [https://www.linkedin.com/in/strohrbaugh/ Federal Signal. Scott Rohrbaugh] | ||
| | | leader = [https://www.linkedin.com/in/coryjameshohs/ Cory Hohs] | ||
| image = | | image = HAASAlert.jpg | ||
| imagecaption = HAAS Alert | | imagecaption = HAAS Alert | ||
| municipalities = [https://www.cityofchicago.org/city/en/depts/cfd.html Chicago Fire Department]], [[http://grcity.us/fire-department/Pages/default.aspx Grand Rapids Michigan Fire Department]], [[http://www.detroitmi.gov/ Detroit Fire Department]] | | municipalities = [https://www.cityofchicago.org/city/en/depts/cfd.html Chicago Fire Department]], [[http://grcity.us/fire-department/Pages/default.aspx Grand Rapids Michigan Fire Department]], [[http://www.detroitmi.gov/ Detroit Fire Department]] | ||
Line 9: | Line 9: | ||
| website = https://www.haasalert.com/ | | website = https://www.haasalert.com/ | ||
| download = | | download = | ||
| description = | |||
Leverage a platform that allows for alerting drivers when first responders are in route nearby. The platform will use existing mobile networks within the city to send the alerts to drivers on their phones and in-dash through our partnerships with automotive companies. The project will assist in moving drivers out of the way of first responders which will ultimately reduce response times, reduce the number of vehicles driving towards an active scene, and look at learnings from analytics and metrics for how long first responders were in lights and sirens mode. | Leverage a platform that allows for alerting drivers when first responders are in route nearby. The platform will use existing mobile networks within the city to send the alerts to drivers on their phones and in-dash through our partnerships with automotive companies. The project will assist in moving drivers out of the way of first responders which will ultimately reduce response times, reduce the number of vehicles driving towards an active scene, and look at learnings from analytics and metrics for how long first responders were in lights and sirens mode. | ||
| challenges = | |||
60,000 emergency vehicles collision a year in the U.S. causing $35B cost to society. Police Officers and Fire Fighters have a higher death rate driving to the scene of an incident than at the scene itself. | 60,000 emergency vehicles collision a year in the U.S. causing $35B cost to society. Police Officers and Fire Fighters have a higher death rate driving to the scene of an incident than at the scene itself. | ||
Expensive direct line of sight or short range sensors on cars require nearby and even direct line of site which for first responders is not enough warning time to drivers or to traffic lights. | Expensive direct line of sight or short range sensors on cars require nearby and even direct line of site which for first responders is not enough warning time to drivers or to traffic lights. | ||
| solutions = | |||
The costs of our solution is $10 per first responders vehicle which means it is affordable for any city, today at wide spread adoption. | The costs of our solution is $10 per first responders vehicle which means it is affordable for any city, today at wide spread adoption. | ||
| requirements = | |||
* Work with assigned city to develop number of vehicles to deploy on. | * Work with assigned city to develop number of vehicles to deploy on. | ||
* With the first responder fleet, create the tracking and metrics that we will report on to show the efficacy of the solution. | * With the first responder fleet, create the tracking and metrics that we will report on to show the efficacy of the solution. | ||
Line 25: | Line 23: | ||
* Work with first responders in the city to activate the project and show live alerting from their vehicles to drivers in the area. | * Work with first responders in the city to activate the project and show live alerting from their vehicles to drivers in the area. | ||
* Launch pilot and update regularly through a dashboard with analytics. | * Launch pilot and update regularly through a dashboard with analytics. | ||
| kpi = | |||
# Result of driver alerts led to a safer driving experience. | # Result of driver alerts led to a safer driving experience. | ||
# Reduce or increase the use of lights and sirens. | # Reduce or increase the use of lights and sirens. | ||
# Stretch: Was there a perceived reduction in response times (we won’t have enough scale in only two months for ALL drivers to receive the alert yet) | # Stretch: Was there a perceived reduction in response times (we won’t have enough scale in only two months for ALL drivers to receive the alert yet) | ||
| | | measurement = | ||
# We will measure in our database when/where the driver was alerted and solicit feedback from the rivers. | # We will measure in our database when/where the driver was alerted and solicit feedback from the rivers. | ||
# Using a prototype smart city IoT device, measure how long lights and sirens were enabled. | # Using a prototype smart city IoT device, measure how long lights and sirens were enabled. | ||
| | | standards = | ||
* Requires the GPS data, connection to lights and sirens, as well as needing to compare to existing runtimes off of the dispatch and CAD system. | * Requires the GPS data, connection to lights and sirens, as well as needing to compare to existing runtimes off of the dispatch and CAD system. | ||
* Will be an instructional opportunity on using technologies that allow for broadcasting when lights and sirens are enabled. | * Will be an instructional opportunity on using technologies that allow for broadcasting when lights and sirens are enabled. | ||
| replicability = | |||
* This can simply and easily be deployed to any city or state first responder fleet as we will use a simple mobile app to detect the siren enabled and for the light swill use a simple IoT smart city device that is low cost and quick to install. | * This can simply and easily be deployed to any city or state first responder fleet as we will use a simple mobile app to detect the siren enabled and for the light swill use a simple IoT smart city device that is low cost and quick to install. | ||
* The point is to make this available to ANY city with ANY budget. | * The point is to make this available to ANY city with ANY budget. | ||
| cybersecurity = To be developed | |||
| impacts = | |||
* Will lead to reduction in response times and collisions. | * Will lead to reduction in response times and collisions. | ||
* Will enable cities to become smarter by using the data for connected street lights and connected traffic lights (we provide at no cost). | * Will enable cities to become smarter by using the data for connected street lights and connected traffic lights (we provide at no cost). | ||
* Will enable a more aware public safety campaign which will improve the quality of life for first responders and those living in the area with this notification system. | * Will enable a more aware public safety campaign which will improve the quality of life for first responders and those living in the area with this notification system. | ||
| demonstration = | |||
Will showcase with the actual mobile solution and IoT smart city sensor and how it works easily for any city looking to deploy the solution. Will include the live dashboard and analytics to look at results. If there is room, we can have an actual emergency vehicle there to show how the setup can be done (or just have a connected light and siren on a table and show the system working in its entirety). | Will showcase with the actual mobile solution and IoT smart city sensor and how it works easily for any city looking to deploy the solution. Will include the live dashboard and analytics to look at results. If there is room, we can have an actual emergency vehicle there to show how the setup can be done (or just have a connected light and siren on a table and show the system working in its entirety). | ||
| | | supercluster = Public Safety | ||
}} | |||
Latest revision as of 23:13, February 2, 2018
First Responders on the Grid | |
---|---|
HAAS Alert | |
Team Members | Federal Signal. Scott Rohrbaugh |
Point of Contact | Cory Hohs |
Participating Municipalities | Chicago Fire Department], [Grand Rapids Michigan Fire Department], [Detroit Fire Department] |
Status | Launched |
Website | https://www.haasalert.com/ |
Download |
Description
Leverage a platform that allows for alerting drivers when first responders are in route nearby. The platform will use existing mobile networks within the city to send the alerts to drivers on their phones and in-dash through our partnerships with automotive companies. The project will assist in moving drivers out of the way of first responders which will ultimately reduce response times, reduce the number of vehicles driving towards an active scene, and look at learnings from analytics and metrics for how long first responders were in lights and sirens mode.
Challenges
60,000 emergency vehicles collision a year in the U.S. causing $35B cost to society. Police Officers and Fire Fighters have a higher death rate driving to the scene of an incident than at the scene itself. Expensive direct line of sight or short range sensors on cars require nearby and even direct line of site which for first responders is not enough warning time to drivers or to traffic lights.
Solutions
The costs of our solution is $10 per first responders vehicle which means it is affordable for any city, today at wide spread adoption.
Major Requirements
- Work with assigned city to develop number of vehicles to deploy on.
- With the first responder fleet, create the tracking and metrics that we will report on to show the efficacy of the solution.
- Create a platform of drivers to receive the alerts.
- Create an android based mobile application for the project.
- Work with first responders in the city to activate the project and show live alerting from their vehicles to drivers in the area.
- Launch pilot and update regularly through a dashboard with analytics.
Performance Targets
Key Performance Indicators (KPIs) | Measurement Methods |
---|---|
|
|
Standards, Replicability, Scalability, and Sustainability
- Requires the GPS data, connection to lights and sirens, as well as needing to compare to existing runtimes off of the dispatch and CAD system.
- Will be an instructional opportunity on using technologies that allow for broadcasting when lights and sirens are enabled.
Cybersecurity and Privacy
To be developed
Impacts
- Will lead to reduction in response times and collisions.
- Will enable cities to become smarter by using the data for connected street lights and connected traffic lights (we provide at no cost).
- Will enable a more aware public safety campaign which will improve the quality of life for first responders and those living in the area with this notification system.
Demonstration/Deployment
Will showcase with the actual mobile solution and IoT smart city sensor and how it works easily for any city looking to deploy the solution. Will include the live dashboard and analytics to look at results. If there is room, we can have an actual emergency vehicle there to show how the setup can be done (or just have a connected light and siren on a table and show the system working in its entirety).