Omnisense Ulysses Micro meets the FLIR M232, thermal cameras compared

Panbo(at) looks a little silly with both cameras mounted high on the t-top rail

When you think of a thermal night vision camera you might not think of Omnisense, but you probably do think of FLIR. Omnisense hopes to change that with their Ulysses line of thermal cameras. With a strong feature set, broad MFD support, and competitive features, it looks like an interesting comparison. I’ve been testing both the Omnisense Ulysses Micro and the FLIR M232. It’s been fun comparing the two and I see strengths and weaknesses to both but read on to see if there’s a clear winner.

Omnisense offers cameras ranging from the 384×288 pixel, non-stabilized, thermal only Ulysses Micro that I’m testing to the 640×480, stabilized, dual-payload (thermal and visible light) Ulysses II. The base Micro starts with a $3,699 list price while the range-topping, dual payload (thermal and visible light) Ulysses II lists for $55,999. The Ulysses Micro has a 13mm focal length lens giving it a 29-degree horizontal and 22-degree vertical field of view.

The Ulysses Micro uses a single cable from the junction box to the camera for both power and data. It also includes the junction box pictured above that allows easy, below-decks connection to an analog video cable, NMEA 0183 data, or connecting a physical joystick controller. The Omnisense Joystick lists for $500 and the mounting base that the camera is mounted on in the photos lists for $100.



The Omnisense Ulysses Micro at night with the camera’s LEDs illuminated

Omnisense is proud of the job they’ve done with the physical build of all their cameras. The camera housing is Awl Grip painted aluminum and, as you can see in the photo above, the Omnisense logo on the side of the camera is illuminated. You can adjust the color and brightness of the illumination or turn it off altogether via the camera’s on-screen menus.

The FLIR M232 installed on Panbo(at)

The $3,650 M232 is FLIR’s entry into fixed mount, pan and tilt, maritime thermal cameras. The camera has a 320×240 pixel resolution with a 19mm focal length lens to give it a 24-degree horizontal by 18-degree vertical field of view. The M232 uses a two cable install with one carrying power and the other data. FLIR includes the mounting pedesdatal shown above and their JCU-3 joystick lists for $400.

The M232’s body is constructed of plastic. But, I should mention that the unit I’m using has been mounted on Have Another Day’s hardtop for several years and shows no signs of aging or sun damage. Ben Ellison and I have both used M232s to test various Raymarine and FLIR integrations.

MFD Support

Omnisense’s menus will look the same on any MFD

Both cameras support MFDs from Furuno, Garmin, Raymarine, and Simrad / B&G. Omnisense’s interface is delivered via HTML5 with the MFD just displaying the feed from the camera and sending information on touch screen interactions back. The camera is outputting a video feed that includes the camera image, on-screen joystick, and menus. This means the user interface will look exactly the same on all MFDs or when connected directly to a computer or tablet.



M232 settings are managed via the MFD menus

FLIR cameras have a management API all four major MFD manufacturers have implemented. This means that the camera settings are managed via menus matching the rest of the MFD’s settings screens.

Using the cameras

Although the cameras look pretty similar and serve the same purpose, there are some pretty significant differences. The single most substantial difference may be resolution. The Ulysses Micro’s 384×288 sensor has a total of 110,592 pixels. The M232’s 320×240 sensor has a total of 76,800 pixels. That equates to 44 percent more pixels for the Ulysses. Of note, Omnisense only enjoys this resolution advantage in their lower resolution cameras. Cameras like the Ulysses Micro S+, Mini, Mini+, and II all have a 640×480 resolution sensor. FLIR M364 cameras have a 640×512 sensor, the M400 series have 640×480, and the M500 has a 640×512 sensor. The 640×512 cameras have 7-percent more pixels than the 640×480 sensors.

During my testing, I often felt that I could see the additional resolution show up in the Ulysses’ images. I regularly could see more detail in the Omnisense’s picture. The Omnisense image is more contrasty when compared to the FLIR’s. On the other hand, the FLIR routinely shows more detail in the mid-range of the image.

Omnisense’s images tend to have more contrast, but perhaps at the expense of less detail in mid-temperatures. The M232 has image presets for day, night, and docking. I’ve tried each of these presets but haven’t noticed a large difference. The greater contrast of the Ulysses’ images often made it easier to quickly identify an object. But, I find the greater detail in the mid-ranges from the M232 to be helpful in fully understanding the image.



Both cameras support either onscreen touch controls or a physical joystick to pan and tilt the camera. For my testing, I’ve focused on the onscreen controls. FLIR uses a swipe control for the camera. So, to move the camera horizontally you swipe across the screen and to move it vertically you swipe up and down on the screen. Omnisense uses a virtual, on-screen joystick. Anywhere you press a small joystick-like interface is brought up on screen under your finger. The virtual joystick is proportional, so to move slowly you move your finger a short distance in whatever direction you’d like to move. To move faster, you move your finger a little further.

The Omnisense virtual joystick makes it much faster and easier to move the camera large degrees. For example, if the camera is facing forward and you want to see something aft of the boat the joystick makes it quite quick to swing the camera around. By contrast, the FLIR swiping input requires quite a few swipes across the screen. On the other hand, fine adjustments, like moving the camera a degree or two, are easier with FLIR’s swiping input. I often found myself overshooting the adjustment I intended with Omnisense’s virtual joystick.

For my testing, I’ve been using the “White Hot” color scheme from both cameras. This displays hot pixels in white, cold pixels in black, and uses shades of gray between hot and cold. Both cameras support several other color schemes. Although I’ve mostly used white hot, I’m also a big fan of the color scheme FLIR calls Fusion (shown in the top right of the gallery above). Both FLIR and Omnisense offer color schemes that use a grayscale background with outlier temperatures highlighted in contrasting colors. Overall, I found these more difficult to read and felt they took away from my ability to decipher what the camera shows.

Additional capabilities

ClearCruise useful in harbor

When paired with a Raymarine Axiom MFD, the M232 has several unique capabilities under the ClearCruise name. First is ClearCruise itself. ClearCruise utilizes procesing in the camera to identify what FLIR calls “non-water” objects in the image. The MFD can sound an audible alert in addition to highlighting the object with the yellow brackets shown in the picture above.



A screenshot of the display of Have Another Day’s Axiom 12 displaying ClearCruise AR targets overlayed over the images from a FLIR M232 camera

In addition to ClearCruise object detection, Axiom MFDs paired with FLIR thermal cameras, and an AR200 stabilization module, can deliver a capability called ClearCruise AR. ClearCruise AR overlays augmented reality flags over AIS targets, ATONs, and waypoints. In my testing of ClearCruise AR I’ve found it very helpful to be able to positively identify an object on screen via ClearCruise AR.

FLIR M232 settings include motion tracking

Both cameras support integration with connected MFDs to control motion. Omnisense’s control is limited to slew-to-cue on a radar scope. This allows the camera to go to aim at a point you touch on the radar scope. FLIR supports quite a few more camera tracking functions including automatically tracking various hazardous targets. Plus, the camera can support a surveillance style scan where the camera pans continuously to show the area around the boat.

Using the chart view on a Raymarine Axiom, the camera can track a waypoint or other chart element. In the screenshot above I’ve clicked on a waypoint and brought up more options. Pressing “Track with camera” will aim the camera at the location of the waypoint. As the boat moves around the waypoint, the camera will move to stay focused on the spot.

Final thoughts

At the outset, I teased to read on to see if there’s a clear winner. Sorry to say, I don’t think there is a winner here. These are two very capable thermal cameras. If you regularly boat at night, either one of these cameras will significantly increase your situational awareness and safety. There are subtle differences between the cameras. The Omnisense offers more resolution while the FLIR offers quite a few more integration options, especially when paired with Raymarine Axiom MFDs. Overall, I don’t think you can go wrong with either camera.



Ben Stein

Ben Stein

Publisher of Panbo.com, passionate marine electronics enthusiast, 100-ton USCG master.

17 Responses

  1. Peter Geise says:

    Wondering how they perform in fog and ClearCruise in daylight ?

    • Ben Stein Ben Stein says:

      Fog performance will degrade for both cameras. Thermal doesn’t see through water very well so both fog and rain will diminish thermal performance. Rain more than fog.

      ClearCrruise (object detection) will work the same in daylight or nighttime for the M232. It only has a thermal sensor and the sensor basically works the same during daylight and at night. I tested in all light conditions and didn’t see any difference. The one thing I did notice is that ClearCruise’s distance measurements are highly suspect.

      I have an M364C on Have Another Day. That’s a dual payload thermal and visible light camera. ClearCruise AR works amazingly well on that camera using both the thermal and visible light sensors and can give you really good visuals with AR overlays identifying known items in the image.

      -Ben S.

  2. Bill Walker says:

    “Ulysses II lists for $55,999”

    Is that a typo, or is it really a buck short of fifty-six thousand dollars? That seems like an awfully big jump just to add visible light.

    • Ben Stein Ben Stein says:

      It’s not a typo, but it’s also not the entire story. Here’s the model family, resolutions, features, and list prices:

      Model Resolution Features List Price
      Micro 384×288 PTZ $3,699
      Micro S 384×288 PTZ, Stabilized $8,499
      Micro S+ 640×480 PTZ, Stabilized $14,499
      Mini 640×480 PTZ, Stabilized, Dual Payload (visible and thermal) $20,999
      Mini+ 640×480 PTZ, Stabilized, Dual Payload (visible and thermal) $27,999
      Mini+ 640×480 PTZ, Stabilized, Dual Payload (visible and thermal), Video Tracking $55,999

      -Ben S.

      • robin says:

        Video trackers for thermal cameras can be very complex to implement well so pretty easy to see how the addition of a tracker adds a lot of $$ to the product. I would be very interested to see how the tracking performs and what kind of features it supports. For example, higher end trackers can show the range, speed and direction of the object being tracked. Additionally they work in rough seastates when the object being tracked disappears from view due to a wave.

      • Leonard says:

        Actually it’s not a typo error. The Ulysses II is not built on the Ulysses mini platform. That’s a much heavier grade camera for larger boats and government markets. Double tap on any object you want to track on the screen and the camera will follow!

  3. robin says:

    The big limiter with consumer thermal systems like these is the fact they are limited to 9Hz due to ITAR (International Traffic in Arms Regulations) and thermal cameras >9Hz are on the list and thus Dept of State export controlled.

    If you can get a 30Hz version (typically limited to USA only and/or for use by professionals in public safety) the performance is way better.

    • Ben Stein Ben Stein says:

      The Omnisense Ulysses Micro I have installed is actually a 30hz unit. It was swapped during testing from a 9hz version to a 30hz version. It does indeed produce smoother video, though I’m not sure I’d go as far as the performance being way better.

      -Ben S.

      • robin says:

        From my experience the difference really comes into play in heavier sea states, faster moving platforms, and targets. Also the tracker has more data to work with for better tracking performance.

        For basic situational awareness in port environments 9Hz will work (and likely the dominant use case for the majority). Agree the difference is not huge but as the environment gets more dynamic the refresh becomes increasingly important. For example a MOB situation at night in offshore conditions.

        • Ben Stein Ben Stein says:

          A very good point and, as you’ve likely noticed from the videos, I didn’t have the opportunity to test in heavy seas or under duress.

          -Ben S.

  4. BillG says:

    Have you looked at the new Sionyx Nightwave? It lists (I think) for around $1,600 bucks

    • Ben Ellison Ben Ellison says:

      Looks like an interesting alternative to thermal and here’s hoping that young Ben gets to try one when they ship. Details here:

      https://www.sionyx.com/products/nightwave

      • Brad says:

        Would be very interested to see a practical review of the Sionyx camera when it’s released. With a $1600 price tag that brings night vision into the realm of feasibility for many more boaters. Granted, it’s a fixed mount with no stabilization features, but the price is still attractive and much less than other available products.

        The very high price tag of FLIR systems seems like a real ocker for boaters that may want to adopt such technology, but see it as unaffordable for a sort-of “fringe use” tool. Radar and other tools would be way higher on the list. A camera that costs as much as several month’s rent/mortgage, or even a very nice car, is not realistic for most boaters.

  5. Jose says:

    Did you try the sionyx low light camera? Better resolution and view than any flir camera. Only catch it’s just for 150 mts. I try one past week on Seattle and become a believer. Beside, price it’s way much better than any flir camera.

    • Ben Stein Ben Stein says:

      Jose,

      I have a Nightwave on my test bench about to be installed. I have used the SiOnyx Aurora previously (https://panbo.com/sionyx-aurora-night-vision-camera-demo-ride/) and been impressed with it. I think the biggest weakness of the SiOnyx cameras has been the ability to display them on MFDs. The Nightwave does offer an analog video out, although that, too, limits what MFDs can display the image. My understanding is they are working on MFD integration.

      Probably one of the most attractive aspects of the SiOnyx cameras is the dramatically lower cost of entry. If you aren’t a regular night boater, I think the cost of a thermal camera can be hard to justify. SiOnyx brings the price point down to the point of being affordable insurance.

      -Ben S.

  6. Jose says:

    I drove a big 120′. Had 2, one forward, one back. The back help me a lot to drove back st the slip “Mediterranean style”. The picture was really clean and accurate and I feel very safe driving under heavy wind. Off course have some limitation but for that kind of money… Very interested on read your comment about it.

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