Sensors to Dashboards

iVEDiX uses the latest frameworks and developments in IoT technologies to Connect, Capture, Process and Display digitized asset movements while providing immediate visibility into its location, status, condition, environment, and history. It also has the capability to compute and aggregate to provide actionable intelligence including notifications and alerts in real-time.

Connect and Capture

The iVEDiX IOT engine (CORE) reads data from sensors and tags where they are deployed and mapped through iVEDiX Studio. It can capture n number of elements from the sensors and tags like location, proximity, temperature, motion, acceleration etc. The data is all day/time stamped. Data could be transmitted using any one or a combination of the following CONNECTING technologies available today. Specific use cases will dictate which one of the following RTLS (Real-Time Locating System) technologies will be in play:

Passive RFID

RFID uses radio waves to wirelessly identify and gather data from tagged assets.

Active RFID

Active tags are battery powered and emit a beacon that transmits farther than passive RFID.

Bluetooth Low Energy (BLE)

Bluetooth Low Energy (BLE) is similar to active RFID because a battery is required, however, transmit distances are much less. BLE is often used in low power sensor applications.

Wireless Mesh

A wireless (802.15.4) network in which nodes connect directly and dynamically to other nodes to route sensor and location data. Wireless Mesh is typically deployed for highly scalable outdoor tracking.

IoT Sensors

Sensors collect data from the surrounding environment, such as location, proximity, temperature, humidity, motion, vibration, acceleration, and flow.

Satellite (Global Positioning System – GPS)

Tracking via GPS and ground receivers to pinpoint geographic locations.

Barcodes

Barcodes can come in traditional 1D and 2D formats like QR codes.

Near Field Communications

NFC is a short-range, wireless technology that enables communications between electronic devices within 4 cm.

Configuration and Capabilities

Configure your assets, location, rules, thresholds, workflows to provide depth and dimension to your asset data. The rich context to your asset data will prove to be invaluable in the quality, frequency and actionable insight including notifications that come from the data disseminated from the sensors and assets.

Sensors to Dashboards

iVEDiX uses the latest frameworks and developments in IoT technologies to Connect, Capture, Process and Display digitized asset movements while providing immediate visibility into its location, status, condition, environment, and history. It also has the capability to compute and aggregate to provide actionable intelligence including notifications and alerts in real-time.

Connect and Capture

The iVEDiX IOT engine (CORE) reads data from sensors and tags where they are deployed and mapped through iVEDiX Studio. It can capture n number of elements from the sensors and tags like location, proximity, temperature, motion, acceleration etc. The data is all day/time stamped. Data could be transmitted using any one or a combination of the following CONNECTING technologies available today. Specific use cases will dictate which one of the following RTLS (Real-Time Locating System) technologies will be in play:

Passive RFID

RFID uses radio waves to wirelessly identify and gather data from tagged assets.

Active RFID

Active tags are battery powered and emit a beacon that transmits farther than passive RFID.

Barcodes

Barcodes can come in traditional 1D and 2D formats like QR codes.

Near Field Communications

NFC is a short-range, wireless technology that enables communications between electronic devices within 4 cm.

Bluetooth Low Energy (BLE)

Bluetooth Low Energy (BLE) is similar to active RFID because a battery is required, however, transmit distances are much less. BLE is often used in low power sensor applications.

Wireless Mesh

A wireless (802.15.4) network in which nodes connect directly and dynamically to other nodes to route sensor and location data. Wireless Mesh is typically deployed for highly scalable outdoor tracking.

IoT Sensors

Sensors collect data from the surrounding environment, such as location, proximity, temperature, humidity, motion, vibration, acceleration, and flow.

Satellite (Global Positioning System – GPS)

Tracking via GPS and ground receivers to pinpoint geographic locations.

Configuration and Capabilities

Configure your assets, location, rules, thresholds, workflows to provide depth and dimension to your asset data. The rich context to your asset data will prove to be invaluable in the quality, frequency and actionable insight including notifications that come from the data disseminated from the sensors and assets.