Smart Traffic Management System with its advantages

1. EmtracSystem

2. C-V2X Signal Priority The Federal Communications Commission recently answered a question that impacts US-based traffic, first response, and transit agencies: Which of the proposed communications methods will be adopted to serve vehicle-to-vehicle and vehicle-to-infrastructure communications, DSRC or C-V2X? In their unanimous November 18th ruling, the FCC designated C-V2X Signal Priority (Cellular Vehicle-to-Everything) as the technology standard for developing safety-related transportation and vehicular communications. Existing DSRC communications systems will be required to cease operations in 12 months as its spectrum will be split between extended Wi-Fi and C-V2X.

3. Cellular Signal Priority Advantages & Capabilities of Traffic Priority Management Systems Radio-based communications have opened the path for various other wireless methods, including cellular signal priority, WiFi, and others (each with their own strengths and weaknesses). Additionally many transit vehicles are already equipped with transit systems that include GPS positioning. And it’s not uncommon for a transit fleet to be made up of vehicles with differing signal-priority technologies.

4. Emergency Vehicle Priority Advantages & Capabilities of Traffic Priority Management Systems EMTRAC Priority Management System has been used throughout North America and ensures Bus Signal Priority and Emergency Vehicle Priority. System helps first-response and transit vehicles get to their destination both quickly and safely. The evacuation route's entire planning is a critical part of emergency management and can greatly reduce the end of life or harm to the citizens through unforeseen circumstances. The purpose of evacuation route planning is to reduce evacuation time under certain limitations and lessen the likelihood of depth hazards to citizens from accident areas.

5. Emergency Vehicle Preemption Device Advantages & Capabilities of Traffic Priority Management Systems Read on as we discuss why is it essential to Implement Emergency Vehicle Preemption Emergency vehicle preemption allows for a considerable reduction in response times. The system allows emergency vehicles along the U.S. to pass through high-volume crossings quickly with fewer conflicts, saving few seconds per intersection. The system can reduce the number of emergency vehicle crashes - which is around an average of 2.3 crossing crashes per year & less than one crossing crash every five years. With reduced stoppages at signalized crossings, cities can reach the exact response times with fewer rescue and EMS stations than would ordinarily be required, rendering notable cost savings.

6. Transit Signal Priority Advantages & Capabilities of Traffic Priority Management Systems Difference Between Traffic Signal Priority & Preemption Today's blog would revolve around Transit Signal Priority and Traffic Signal Preemption and the primary difference between the two. The primary difference between Transit Signal Priority and Traffic Signal Preemption is that signal priority changes the normal signal operation process to help transit vehicles better. The Emergency Vehicle Preemption limits the regular process for rare cases such as countering the fire engine or nearing a train. Transit Signal Priority (TSP) is a back-end plan that facilitates in-service transit vehicles, like cars or buses, through traffic-signal controlled intersections.

7. Traffic Signal Priority The three-segment of a network-based TSP system are: The three-segment of a network-based TSP system are: • Transit vehicle detection system • Traffic signal control system • Transit/traffic management center The difference between TSP and Traffic Signal Preemption for Emergency Vehicles is that there is more reliable control signal priority adjustment to the usual signal operation process for transit vehicles. At the same time, Preemption obstructs the standard process for special events such as approaching trains or responding to fire engines.

8. Traffic Signal Priority The three-segment of a network-based TSP system are: The three-segment of a network-based TSP system are: • Transit vehicle detection system • Traffic signal control system • Transit/traffic management center The difference between TSP and Traffic Signal Preemption for Emergency Vehicles is that there is more reliable control signal priority adjustment to the usual signal operation process for transit vehicles. At the same time, Preemption obstructs the standard process for special events such as approaching trains or responding to fire engines.

9. Traffic Signal Preemption The three-segment of a network-based TSP system are: Primarily, in most applications, traffic signal preemption is limited to emergency vehicles. Usually, a vehicle equipped with a preemption device will use it when approaching a red signal to change the signal to green immediately. There is a particular range of around 1500 feet for a mobile infrared transmitter.

10. Bus Signal Priority The three-segment of a network-based TSP system are: Transit Signal Priority (TSP) is a Advanced Traffic and Bus signal Priority Management Systems or mechanism to provide special treatment and reduce dwell time to transit vehicles such as bus, rapid transit vehicle, railroad car, water vehicle, municipal vehicles, law enforcement and fire safety vehicle at signalized intersections. Transit Signal Priority system requires some hardware equipment vehicle detectors and specialized traffic signal controllers.

11. Traffic Signal Preemption Device The three-segment of a network-based TSP system are: The Emtrac's Traffic Signal Preemption Devicemakes it more manageable and reliable for emergency vehicles to reach residents in need by clearing the traffic ahead of them. It gives them green lights at intersections and makes all other traffic securely to a stop. It comes with three different parts - • vehicle components, • wayside components, • and the software that configures and monitors the system.

12. Traffic Light Preemption Device The three-segment of a network-based TSP system are: EMTRAC System is considered as one of the best Traffic Priority Management System provides safe passage for emergency and first response vehicles as well as reduces dwell time, ensure priority or preemption for municipal vehicles and public transport vehicles by deploying traffic light preemption devices at intersection points. The EMTRAC deploy Traffic Light Preemption Device at transit points that are managed by Priority Management Software. EMTRAC Priority Management System consists of three major components. • Vehicle Components • Wayside Components • Priority Management Software

13. Traffic Signal Preemption for Emergency Vehicles The three-segment of a network-based TSP system are: The difference between TSP and Traffic Signal Preemption for Emergency Vehicles is that there is more reliable control signal priority adjustment to the usual signal operation process for transit vehicles. At the same time, Preemption obstructs the standard process for special events such as approaching trains or responding to fire engines.

14. Traffic Signal Preemption Transmitter The three-segment of a network-based TSP system are: Today's blog would revolve around Transit Signal Priority and Traffic Signal Preemption and the primary difference between the two. The primary difference between Transit Signal Priority and Traffic Signal Preemption Transmitter is that signal priority changes the normal signal operation process to help transit vehicles better. The Emergency Vehicle Preemption limits the regular process for rare cases such as countering the fire engine or nearing a train.

15. Emergency Vehicle Preemption Device The three-segment of a network-based TSP system are: Emergency Vehicle Preemption (EVP) Device : Driving cautiously on the road saves your life as well as others. The sudden facing of an emergency vehicle can change the track of other vehicles as individual driver's maneuvers might get confused and create conflicts that can cause emergency vehicle crashes or block lanes increasing response times. Using Emergency Vehicle Preemption (EVP) to provide emergency vehicles a green light at crossings can lessen driver distraction, needless conflicts and improve emergency response times.

16. Traffic Cabinet Monitor The three-segment of a network-based TSP system are: Like a fleet of fighter jets, a traffic signal system must remain in a “state of readiness” with all critical functions operating properly at all times. With the Traffic Cabinet Monitor system, both large and small cities can receive the real- time status updates that are essential for continuous system readiness. Workstation monitors can display current phase states for all equipped intersections, as well as a wide range of detection-input and vehicle activity. This activity may be displayed on a single workstation monitor—or it may be apportioned for display across a video wall.

17. Traffic Signal Monitoring System The three-segment of a network-based TSP system are: A large part of an intelligent traffic system is knowing the current status of your traffic equipment—and being able to respond to issues remotely whenever possible. The Traffic Signal Monitoring System allows traffic personnel to do just that, whether the city has an advanced traffic management center or just a single workstation. The Traffic Center system includes a number of service modules, each providing information for a different part of the traffic system. These modules enables cities to efficiently increase their ITS capabilities by integrating the system in the areas it’s needed most. Additional modules may then be added to expand ITS functions.

18. THANKS! Any questions? Location: Manufactured By STC, Inc. 1201 W. Randolph St, McLeansboro, IL 62859 Phone: Richard D’Alessandro: (214) 607-0100 Fax: (214) 607-0105 Email: info@emtracsystems.com Web: https://www.emtracsystems.com/