Synthetic aperture: Using signal processing to get better images with smaller, more affordable hardware
Florian Wolf, PhD ???
Founder & CEO | Building AI solutions for engineers, scientists and investors in technology-intensive industries
What is synthetic aperture, and why is it a big deal?
n imaging systems such as telescopes or microscopes, how much detail you can see depends on the aperture (= the usable diameter) of the system (for technical details,?see this Wikipedia article, for example).
It’s easy to see why you might want more detail. For example, with an earth-observing satellite you might want to see vehicles and people, not just houses. And with microscopes, you might be interested in seeing ever-smaller details of cells, for example.
But “more detail” means “you need bigger aperture”. “Bigger aperture” means “more expensive system”. And not just a bit more expensive–usually it’s exponentially more expensive.
Enter synthetic aperture. Synthetic aperture uses mathematical algorithms to combine signals from a smaller imaging system to create higher-resolution images. In other words, images that would otherwise require bigger, more expensive imaging systems.
For this article, I used Mergeflow software to discover companies, patents, and R&D in the area of synthetic aperture. Here is a?snapshot of some of my results?(click on the image to see the snapshot):
Below are some results in more detail. For each category (venture-backed companies, patents, etc.) I had to select some examples. This is my subjective, and to an extent certainly arbitrary, selection.
Venture-backed companies
Asterra: Pipe leak detection from space
When you look at the?Mergeflow data snapshot?above, you’ll notice that most venture-backed synthetic aperture companies work on satellite-based imaging systems.?Asterra, formerly Utilis, is an example of this category. They raised $6M from?Beringea, and they use synthetic aperture radar to measure underground moisture levels. This way they can spot leaks in underground pipes, for example.
Detecting pipe leaks quickly and continuously is a big deal. For example, according to?this BBC report, London’s pipes alone burst over 36,000 times between 2011 and 2018. That’s more than 16 times per day, on average.
Asterra’s technology has an interesting origin:?Lauren Guy, co-founder at Asterra, originally worked on using synthetic aperture radar for underground water detection on Mars.
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Rebus Biosystems: Synthetic aperture optics for faster analyses of subcellular details
From space to microscopic structures:?Rebus Biosystems?is a biomedical imaging company. They have raised $20M Series B from?Illumina Ventures,?Lifecore Partners,?Ncore Ventures,?Xolon Invest,?CTK Investments,?Ray,?Seegene Medical Foundation,?LabGenomics, and?Timefolio Asset Management.
Rebus Biosystems uses synthetic aperture optics so that you can get the same resolution from a 20x air microscope lens that would otherwise require a 100x oil immersion lens. Not only are oil immersion lenses a lot more expensive than air lenses. The oil immersion process also takes a lot longer. And this means that you can’t do high-throughput analyses. In other words, Rebus Biosystems enable you to use lenses that (1) are cheaper, and that (2) enable you to do high-throughput analyses of subcellular structures.
With Rebus Biosystems’ synthetic aperture optics, you can use 20x air microscope lenses to get the same resolution as a 100x oil immersion lens. Image from Rebus Biosystems’?website.
Patents: Synthetic aperture imaging for medical applications
Los Alamos National Laboratory
A?group of scientists?at?Los Alamos National Laboratory?holds patents for using synthetic aperture in ultrasound imaging. This one, for example:
One of the inventors listed on the patents,?Lianjie Huang, is a geophysicist by training. I think this is worth noting because it hints at the interdisciplinary nature of this field of imaging (or imaging more generally).