iPark server is the integrated parking guidance module that plugs into OpenPark server for collecting data from sensors and distributing information for parking users
M A I N F E A T U R E S
- Intelligent Parking Guidance Control System has the ability to be installed as a stand-alone system or in a client server environment whereby multiple users can log in across a network and depending on their access level, either view information, do configuration changes or print reports.
- Intelligent Parking Guidance System is based on open standards protocol such as MQTT. This is to ensure longevity and ongoing support of the system.
- IPark is a fully soft configurable and allow future system expansion, such as the addition of more parking zones, sensors or variable message signs, as well as the addition of entire new parking areas, merely through system configuration.
- IPark server can use MS SQL, MySQL or Postgres database. The Software will operate on a Windows Server Operating System or Linux OS (Ubuntu)
- iPark video server can also be used to record the video streams from the Video Parking sensors as video streams and events whenever a car leaves or returns to a parking spot.
Architecture
Communication between parking sensors and and the management system requires local network that can be serial RS-485 or Ethernet communication according to the used sensor technology. For legacy ultrasonic sensors a local zone controller is required to translate the serial bus communication from sensors and LED displays to the TCP/IP Ethernet communication interface of the management server. For advanced video sensors it is possible to use a local server or directly connect to the cloud through TCP/IP.
SECURITY ACCESS LEVEL
- User Name and Password required before being able to
- access any iPark function
- The password is encrypted in the database.
- It shall be possible for an administrator to force a log off
- of any user. An inactivity timer shall cause an inactive
- user to be logged off after a Configurable time.
M A P D I S P L A Y S
- The IPGS shall support the display of information as Map Displays. This support of Map Display shall include the following:
- All Devices are geo-located. The appearance of devices on a particular map view can be controlled by a combination of zoom control and map display
- The map display includes the capability for showing levels of parking availability, congestion, and sign display with graphical widgets that shows the real time data returned from field devices, including traffic and parking sensors.
- The Central Control System will have a dashboard view which is fully configurable to show the overall parking status in all parking areas as well as 24 hour parking trends.
REPORTS
Historical reports can be used for trend analysis. Current Parking Historical reports can be used for trend analysis.
- Current Parking Utilization By Zone
- Parking Utilization by Zone By Date
- Parking Utilization Detail By Zone By day,..
- Current Overstay Violations By Zone
- Overstay Violation By Zone By date
- Current Reservations By Zone
- Current Reservation Overstay Violation
- Estimated Parking Revenue
- Average time bays are occupied
- Bay stay reporting
- Sensor Failures By Zone
Parking Utilization Summary by Zone By Date
Parking Utilization Detail By Zone By day, week, month, year
Current Overstay Violations By Zone
Overstay Violation By Zone By date
Current Reservations By Zone
Current Reservation Overstay Violation By Zone
Estimated Parking Revenue
Average time bays are occupied by day, week, month, year j) Bay stay reporting
Sensor Failures
Order information
- [PGS-IPARK] iPark Parking Guidance
- Server Software
- [OP-CC1] Central controller
- [PGS-ZC1] Zone controller
- PGS-NC1] Node controller
Order information
- [OP-CC1] Central controller
- [PGS-ZC1] Zone controller
- PGS-NC1] Node controller