Low-latency, high-performance control systemsHow much data is necessary? Where should it be stored and processed? Local processing can be key.
One of the biggest problems with IoT applications is often having too much data, which can make it hard to decide where to store and analyze it. There is a delay when you send information to the cloud for processing. Hence the need for low-latency, high-performance control systems at the local level. This is the niche in which SDS started so many years ago, so we know it well.
When we design an IoT system for a client, we start by mapping out our client’s data needs. We help them decide what data to record, how much of it to store, and what to do with it based on the project’s requirements and goals.
In a traditional IoT system, sensors collect data, such as temperatures and vibrations. An on-property gateway collects this information and sends it to the cloud for processing. The information is stored at the cloud level, where it is processed and analyzed with big data analytics or machine learning.
Become more powerful and energy-efficient
Fog processing may be a better approach, especially for certain industrial settings where connectivity to the cloud may be limited. Data that is less time-sensitive (such as information for preventive maintenance) can then be sent to the cloud for further analysis.
It’s critically important to make the right decisions as to where to process the data in an IoT system based on your latency needs:
Local processing can be done in microseconds.
Fog processing requires milliseconds.
Cloud processing can be accomplished in seconds.
How much data do you need to send?
How fast do you need to send it?
How fast does the system need to respond?
Where can the data be processed?
Making the right decisions
We help clients make the right decisions for data analysis and edge computing based on the answers to such questions as:
If edge computing is the right choice for you, we can assist with all stages of edge implementation:
Proof of concept (POC) and prototype
We will build a POC followed by a prototype that will deliver the functionality required. Future iterations will use a combination of off-the-shelf and custom hardware to deliver functionality within any cost limitations on the end product.
Design of network architecture
This includes your cloud servers, routers, access and edge nodes, gateways, and end devices.
Edge sensors are becoming more powerful. This is what makes local and Fog processing possible—but these sensors also cost more. The design of the system must balance functionality with cost. This is where an expert design team is important.
Development of data governance policies
These should outline what data will be processed at the edge and what data will go to the cloud. Policies should also document who has access to the data. Back-up procedures for data recovery are critical and should be documented as well.
When it comes to actual data analysis, you may be able to use an off-the-shelf analytics package to analyze your data or you may need a custom solution to fit your needs. We can make the right recommendation for your project constraints and requirements.
The security of your edge devices should be a primary concern. There are some companies providing security solutions to help secure microcontrollers at both the board and network level. Physical security is also important, as many edge devices are in public locations that may be difficult to secure. We can help with all aspects of security.