Industrial IoT monitoring with InfluxDB

The solution to provide real-time insight and analytics for your manufacturing process — collecting, storing and visualizing sensor data from your sensors, devices and industrial equipment.

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Why a purpose-built time series database?

Sensor data is all time-stamped to help you understand how your processes and equipment are doing over time to help further innovation and improvement.

Monitoring dashboard - InfluxDB Template

What is the InfluxData IIoT monitoring solution?

The industrial world has a long history of modernizing processes in order to keep production running efficiently and safely while minimizing downtime. Yet many are locked in established data historian solutions that are costly and lack the methods needed to provide innovation and interoperability.

In contrast, InfluxDB — the open source time series database — inherently provides diverse design perspectives not available from a single software vendor. It provides the freedom to integrate with other solutions and allows you to adapt the code to fit your ever-changing system requirements.

  • analytics

    Scalability

    Collecting event data from your equipment is just the beginning. True digital transformation requires more data sources and more analysis of the combined data to gain a better understanding of your systems. InfluxDB is a high-performance data store written specifically for time series data. It allows for high throughput ingest, compression and real-time querying.

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    Open

    With the availability of so many open source tools, operators are no longer required to purchase arcane closed source solutions. Instead, they can look to building their own data historian replacements or buy a ready-made solution that is based on open source. This provides the operator with the freedom to quickly innovate and never be locked in to a single solution that could easily and quickly become obsolete.

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    Built for developers

    InfluxDB provides write and query capabilities with a command-line interface, a built-in HTTP API, a set of client libraries (e.g., Go, Python, and JavaScript) and Telegraf plugins for common data formats such as OPC-UA, ModBus, MQTT and more. In addition, the Influx Community is diverse and highly motivated, making contributions in code, documentation, and advocacy for the InfluxDB and Telegraf projects.

InfluxDB Platform for IIoT Diagram

InfluxDB Platform for IIoT Diagram

Components of the InfluxDB Platform

InfluxDB is central to many data historian solutions providing high throughput ingestion, compression and real-time querying of that same data. Efficiency and effectiveness have to start in the data structure, ensuring that time-stamped values are collected with the necessary precision and metadata to provide flexibility and speed in graphing, querying and alerting. The InfluxDB data model takes the following form:

<measurement name>,<tag set> <field set> <timestamp>

The measurement name is a string, the tag set is a collection of key/value pairs where all values are strings, and the field set is a collection of key/value pairs where the values can be int64, float64, bool, or string. Support for data encoding beyond float64 values means that metadata can be collected along with the time series, and not limited to only numeric values (e.g. valve is open or closed). In addition, there are no hard limits on the number of tags and fields.

Having multiple fields and tags under the same measurement optimizes data transmission, which is important for remote devices sending metrics. The measurement name and tag sets are kept in an inverted index which makes lookups for specific series very fast. See below how you could ingest battery metrics into InfluxDB with:

telemetry,product_id=1,battery_type=lead-acid
voltage=10.1,current=-0.5,temperature=23.4 1464623548s

Telegraf is the collector agent that boasts more than 200 plugins with the majority provided by the open source community. It is written in Go, compiles into a single binary with no external dependencies, and requires a very minimal memory footprint. The variety of plugins created for Telegraf include gathering data from:

  • Sensors: Collect critical stateful data (pressure levels, temp levels, etc.) from IoT sensors and devices.
  • Databases: Connect to data sources like MongoDB, MySQL, Redis and others to collect and send metrics.
  • Systems: Collect metrics from your modern stack of cloud platforms, containers and orchestrators.

InfluxDB also supports the ability to join temporal and non-temporal data sources (Microsoft SQL Server, MySQL, AWS Athena, Google BigQuery, Postgres, and Snowflake) for added insights.

AMQP Telegraf Plugin — The AMQP Consumer Telegraf Plugin provides consumers the ability to receive streaming data through an AMQP 0-9-1 compatible broker, like RabbitMQ. The metrics are read from a topic exchange using the queue binding_key.

ModBus Telegraf Plugin — The Modbus Telegraf Plugin collects Discrete Inputs, Coils, Input Registers and Holding Registers via Modbus TCP or Modbus RTU/ASCII. In the configuration setting, you can identify the addresses of the Modbus device on the bus, the range, timeouts, retries, etc. to collect the measurements directly from the equipment, from the SCADA, or from the automation systems.

MQTT Telegraf Plugin — The MQTT Consumer Telegraf Input Plugin reads from specified MQTT topics and adds messages to InfluxDB. Messages are in the Telegraf input data formats. You can gather and graph metrics from your IoT devices with the Message Queue Telemetry Transport (MQTT) protocol — a simple and lightweight messaging protocol ideal for IoT devices.

OPC-UA Telegraf Plugin — The OPC-UA Telegraf Plugin helps you gather metrics from client devices using the OPC-UA protocol. Telegraf is that it has support for many of the protocols used in the industrial use case, so using this plugin spares you from having to pay excessive fees to build collectors to gather information into your traditional historian solution.

Sensor Telegraf Plugin — The Sensor Telegraf Plugin can help you collect sensor metrics with any sensor executable from the Linux-monitoring (lm-sensor) package. lm_sensors is a free open source software tool for Linux that provides tools and drivers for monitoring temperatures, voltage, humidity and fans.

Featured customers:

Factry

Factry is a Belgian software company that brings the power of open software to the world of manufacturing. It develops tools to help its customers improve their operations. Together with its transparent approach, this guarantees modern and performant solutions without artificial limits. Factry built Factry Historian, a solution that collects process data from industrial systems and stores it in InfluxDB.

ADLINK

ADLINK uses InfluxDB IIoT solution, as part of their ADLINK Edge™ IoT smart gateway solution, to store IoT data so that they can visualize it for monitoring and analysis. ADLINK’s solution connects InfluxDB with Node-Red and with Grafana for real-time and near-real-time visualization respectively.

Moxie IoT

MOXIE IoT has created a solution which tracks factory asset movement and activity, and which aims to improve performance and safety. These assets include overhead cranes, forklifts, pallets and humans. MOXIE's moxieWORLD platform collects, stores and analyzes this data in an iOS app in real time and provides historical data. The platform provides customers with an intuitive overhead mapped view of its factories, etc. MOXIE IoT created its iOS solution using Python, Swift, MQTT, InfluxDB Cloud and AWS. The platform is built on InfluxDB and uses Flux to query its data.

PTC ThingWorx

PTC enables global manufacturers with software solutions that empower them to accelerate product and service innovation, improve operational efficiency, and increase workforce productivity. Working together, InfluxData and PTC bring an open source platform built specifically for handling time series data to the ThingWorx ecosystem of IoT developers.

Tignis

Tignis provides manufacturers, utility providers and energy companies with a physics-driven analytics platform that is used to improve the reliability and efficiencies of connected mechanical systems. Ultimately, the company simplifies its customers' operations by continuously detecting threats, removes obstacles and improves reliability. Tignis uses InfluxDB to analyze time-stamped data which is collected in real time from IoT sensors and used to identify system performance issues and to enable predictive maintenance.

Vleemo

Optimizing electricity output from wind turbines requires constant adaptation to environmental conditions, while staying within the legislative boundaries. In the past, turbines were primarily monitored using remote-controlled SCADA systems. Now, all sensor information from the Vleemo turbines is gathered in InfluxDB then augmented with external data such as weather forecasts. In the end, this allows the Vleemo team to become more productive and save time in their day-to-day operations.

Real-Time Innovations (RTI)

Real-Time Innovations (RTI)’s IIoT system monitoring is built on an architecture that combines the capabilities of the Data Distribution Service™ (DDS) standard for real-time data exchange with InfluxDB. DDS is the open middleware protocol and API standard that provides data connectivity, extreme reliability and a scalable architecture to meet IIoT application requirements. The Connext DDS Telegraf Plugin was written by RTI.

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