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LiKYLIN walks through why fine-pitch LED is shifting toward COB (Chip-on-Board) for tighter pixel pitch, higher contrast ratio, and better long-term stability in meeting rooms, control rooms, and corporate video walls. The demo highlights a P1.5 COB cabinet redesign moving from 600×337.5 mm to 640×360 mm, with a 320×180 mm module that helps reduce visible seams and cabinet gap across a wall. https://likylin-led.com/

A standout concept is the Chameleon Series: when powered off it reads like a decorative printed artwork, and when powered on it behaves like a normal LED screen. The stack described here is SMD LEDs with a GOB (Glue-on-Board) protective layer, followed by UV printing on the surface; the tradeoff is reduced luminance, so the approach uses a white PCB plus white LEDs to keep roughly 500–600 nit brightness after the coating and print layer.

This interview was filmed at ISE 2026 Barcelona, and it’s framed around how display buyers now ask for materials, finishing, and integration—not only pixel pitch. The Chameleon idea is positioned for architecture, museum, and interior-design installs where a “black rectangle” is a deal-breaker, while the COB line is aimed at more traditional pro AV use where uniformity, stability, and contrast matter most.

On the outdoor side, LiKYLIN teases a rugged high-brightness product targeting DOOH deployments, quoting up to IP68 and up to 10,000 nits for daylight readability, plus water resistance as a durability talking point. There’s also a quick look at an indoor rental series and a mention of expanding into audio so projects can be delivered as an AV package rather than a display-only bill of kit.

The company positioning is “young but scaled”: OEM roots, a push to build the LiKYLIN brand globally, and a China footprint that separates R&D in Shenzhen from manufacturing in Chongqing. The discussion also reflects a broader industry theme—price competition is intense, so vendors lean on process tech like COB, GOB protection, and manufacturing automation to defend reliability and total cost over time.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
—

I’m publishing about 75+ videos from ISE 2026, check out all my ISE 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjUiepj5jbL6aIt6QB9jeCk

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Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY

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Lightlink (Shenzhen Lightlink Display) walks through what matters most in rental LED: cabinets that go up fast, stay rigid, and keep image behavior predictable when you’re building a wall every day. The focus is on saving crew time and reducing handling load, with lightweight mechanical design and transport-friendly packaging aimed at touring and festival logistics. https://www.szlightlink.com/

For virtual production and XR stages, the demo highlights an indoor 2.6 mm class panel positioned for cinema-style shooting, where tight pixel pitch, high refresh rate, and stable scan performance reduce moiré, flicker, and camera-sync artifacts. In practice that means LED brightness and calibration (color uniformity, grayscale, gamma) are treated as part of the “camera pipeline,” not just a spec sheet detail.

They also show a 3.9 mm LED dance floor concept that can be used as a conventional wall or converted into a floor via protective surface/masking, so the same rental inventory can cover stage decking and vertical surfaces. For rental houses, that kind of modular reuse is about hitting weight limits indoors, simplifying spare parts, and keeping maintenance access realistic during a show day.

The large-format highlight is the 1 m × 1 m touring-style system described as a “king product,” built around trolley transport and rapid line-up for big festival grids. The “Black Panther” variant emphasizes wind-brace structure so airflow can pass through the rig, plus climbable/maintenance-friendly rear geometry for tall builds; the point is predictable safety margins when the wall gets huge. This segment is filmed at ISE 2026 in Barcelona, which makes sense given how much of the conversation is about deployment speed and show-floor practicality.

On the signal side, the workflow is framed around a NovaStar-style controller stack and software for distributing anything from 4K to 8K canvases across processors and receiving cards, matching what most rental teams already tour with. The company claims broad partner coverage across the US, Europe, and Korea, and the interview keeps returning to the same engineering tradeoff: reduce kilograms per cabinet, reduce minutes per square meter, and keep the wall consistent under pressure.

—
HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
—

I’m publishing about 75+ videos from ISE 2026, check out all my ISE 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjUiepj5jbL6aIt6QB9jeCk

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 )

“Super Thanks” are welcome 😁

Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY

source https://www.youtube.com/watch?v=qJiS_W7Zo70

faytech shows a new kiosk-style display architecture built around a very slim “screen + stand” look, where the compute, power, I/O, and other electronics are moved into the base. The front module is meant to scale from transparent displays to standard LCD sizes (the demo talks about 24″, 27″, 32″, up to 43″), while keeping the same minimal footprint and serviceable pedestal design. https://faytech.com/

The transparent version is basically a stacked optical sandwich: cover glass, a laminated touch sensor layer, double-sided ITO glass, the transparent OLED layer, plus a rear protection glass. The point is repeatability: faytech emphasizes in-house clean-room production for the display stack and faster customization cycles, which matters when you’re trying to ship a non-standard form factor quickly without turning the enclosure into a bulky “kiosk box” stack.

A practical part of the concept is modularity in the lower housing: you can add a payment terminal, printer, QR scanner, camera, ADA-oriented peripherals, or even an LED bar, or leave it clean depending on the deployment. This video was filmed at CES Las Vegas 2026, and the conversation also flags a real-world constraint: transparent OLED brightness and outdoor exposure are tricky, so if you want more rugged use (including weather-facing ideas), the LCD variant is presented as the more straightforward route.

The bigger message is that faytech is betting on vertical integration (enclosure manufacturing, optical bonding/lamination workflows, touch integration) to make “custom kiosk hardware” feel more like a configurable platform than a one-off project. They also tease microLED work as the next display direction, which fits the broader industry push toward higher brightness and longer lifetime for public signage, even if the near-term product here is mainly about industrial design and integration speed rather than a single panel spec roadmap.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY

source https://www.youtube.com/watch?v=wfFmxiAFzlI

This video looks at faytech’s interactive fitting mirror idea: a large-format smart mirror with a 4K UHD touchscreen and a bright LED-lit frame that lets shoppers (or showroom visitors) preview content directly around their reflection, then interact via touch to scroll and trigger on-screen workflows. The demo focuses on practical in-store controls like adjusting LED brightness and correlated color temperature, so the “try-on” view can be tuned to match the surrounding lighting. https://faytech.com/

Under the hood, the mirror behaves like digital signage plus a touch computer: projected-capacitive (PCAP) 10-point multi-touch, an integrated camera for capturing images/video, and standard connectivity so it can plug into a retailer’s catalog, POS, or content-management stack. faytech describes this fitting-mirror line with options like a 65-inch 3840×2160 panel, 360° adjustable LED lighting with selectable CCT steps (for example 3000K/4000K/5000K), optical bonding, and typical I/O like HDMI/DP/USB/RJ45 to integrate into an existing AV chain or kiosk controller video.

What’s interesting here is software flexibility rather than “AR magic”: the unit can run Windows or Android (or act as a high-resolution monitor), while the store supplies its own UI for guided selling, outfit visualization, furniture placement concepts, or storefront engagement. That makes it closer to a programmable kiosk surface—camera, lighting, and UI in one enclosure—than a single-purpose gadget there.

The footage was filmed at CES Las Vegas 2026, and the conversation stays grounded in day-to-day deployment: responsive touch navigation, camera-based visualization, and lighting controls that help align what people see on-screen with the physical environment. The hard problems are integration and operations—calibration, privacy policies for captured media, and keeping the system updated and stable on a busy retail floor every day.

faytech Smart Mirror Demo: 4K 10-point multitouch with LED light control + camera for virtual try-on
faytech Retail Mirror Kiosk: 4K touch UI, adjustable color temp LEDs, camera-based fitting workflow

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY

source https://www.youtube.com/watch?v=rhlDCkZewrw

A quick ground-level look at the LVCC Loop experience: hopping into an all-electric Tesla shuttle in the grade-separated tunnel to cut across the Las Vegas Convention Center campus without doing the long West Hall to Central Hall walk. The ride highlights why short-hop, high-frequency point-to-point transit can feel efficient at a trade show: low dwell time, simple wayfinding, and predictable travel time across a very large site. https://www.boringcompany.com/vegas-loop

Later in the week at CES Las Vegas 2026, the same system reads less like a novelty and more like a capacity and operations problem to solve: peak-hour queues, uneven demand waves, and the need for more stations to spread passenger load. The public network now links the LVCC with nearby stops like Resorts World, Westgate, and Encore, which helps reduce pressure on parallel options like the Las Vegas Monorail when convention traffic spikes.

The interesting technical story is the pace of expansion and what “more stations” really implies: additional portals, ramps, and curb interfaces, plus dispatch logic that keeps headway tight while avoiding bottlenecks at pickup zones. The Boring Company frames progress around faster TBM tunneling (more miles per dollar) and scaling fleet throughput, and you can see the intent in how connector stations outside LVCC start turning the loop into a broader last-mile network.

The video also hints at the next usability milestone: a practical airport link. Recent service planning has discussed airport rides that combine a tunnel segment with surface routing until dedicated airport connector tunnels are finished, which is exactly the kind of transitional architecture you’d expect while right-of-way, portals, and twin-bore construction catch up to demand. For CES crowds, the real win will be more distributed stations so the system behaves like transit instead of a single crowded line, with fewer queue peaks and smoother flow.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY

source https://www.youtube.com/watch?v=yZKqxl_GTCg

Vuzix is framing its current lineup around practical enterprise wearables: a compact “smart display” you pair with a phone, plus fully stand-alone Android devices for hands-free work. In this interview, Adam Bull highlights how the Z100 sits in the lightweight end of that spectrum, acting as a right-eye heads-up display with a monochrome green microdisplay stack, aimed at glanceable prompts rather than full AR world-lock content. https://www.vuzix.com/products/z100-smart-glasses

On the industrial side, the conversation circles around the long-running M-Series concept: a single-eye, stand-alone Android wearable used for warehouse logistics, picking, and guided workflows, with multiple mounting options depending on PPE needs. The newer LX1 is positioned as a purpose-built “full shift” unit for warehousing, focused on ruggedization and comfort over many hour use, with a large clip-in battery pack and configurations that fit headbands, caps, or safety-rated mounts for the floor.

A key message is that Vuzix wants to help partners ship their own smart glasses faster via OEM reference platforms that scale capability by module choice: mic, speaker, camera, single vs dual display, monochrome vs full color, and different optical stacks depending on target cost and task. The video was filmed at CES Las Vegas 2026, and it captures how this OEM angle is being presented as much as the end products themselves, especially for teams that need to move from pilot to deployment without redesigning optics from scratch.

Optics is the other pillar: Vuzix describes itself as a waveguide designer and manufacturer, emphasizing in-house waveguide work in Rochester, New York and a roadmap aimed at high-volume output for waveguide-based display builds. They also stress being light-engine agnostic, tuning waveguides for multiple projector types (microLED, LCOS, laser beam scanning, DLP) and for daylight-readable targets, then showing an example helmet integration done with Collins Aerospace as a systems partner for defense-oriented programs, which adds useful context to what “we know light” means in practice.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY

source https://www.youtube.com/watch?v=BMqpI2TzZP4

Tarkan Bastiyali presents SmartSafe as a “smart start” console that physically secures a driver’s phone in the dash/center-console area (including cassette-slot form factors), then requires a PIN-style unlock code. With the handset locked on a Qi wireless charger, the goal is simple: remove the reach-for-it loop that turns messaging, scrolling, and video into a crash factor on the road. https://bastiyaliinventions.com/

The idea keeps key functions available without hand interaction: navigation can still run via Apple CarPlay / Android Auto, and communications are pushed to Bluetooth hands-free. A practical twist is an automatic reply workflow: anyone texting the driver gets an ETA-style response and a prompt to call via Bluetooth, which shifts interactions away from touch input and toward voice.

On the interface side, SmartSafe leans on voice command and heads-up display logic: if routing changes, the system can alert visually, then confirm the new destination by spoken prompt and project the updated address at eye level. This interview was filmed at CES Las Vegas 2026, and the pitch matches the broader cockpit trend toward HUD-centric UX and reduced gaze-down time on the center stack HUD.

For adoption, Bastiyali frames fleets as the first big buyer category (policy-driven phone check-in), followed by teen-driver use. He also describes a two-layer approach: device registration to one authorized phone plus a planned in-cabin AI camera (driver monitoring / computer vision) to catch secondary-phone behavior, with early testing interest mentioned around Tata Motors in India.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY

source https://www.youtube.com/watch?v=chPW92LgEKc

Accurate Meditech shows microCare Clip, a small clip-on module that turns an existing smartwatch strap into a cuffless blood-pressure spot checker. You trigger a reading from the companion app, wait about 25 seconds while an LED blinks, then the device syncs systolic/diastolic plus heart-rate data to your phone, and you can pocket the clip when done. https://accurate-meditech.com/

Instead of an inflatable cuff, the clip combines optical photoplethysmography (PPG) with two pressure sensors to estimate arterial pulse features and derive blood pressure without squeezing or blocking blood flow. The team frames it around regulatory-style validation, where measurements are typically benchmarked against a reference sphygmomanometer (including legacy mercury systems) under standards such as ISO 81060-2, with attention to repeatability and physiologic drift over a short test window today.

A second device in the video targets people who don’t wear a smartwatch, especially older users: align a marked triangle on the wrist, press one button, and the unit enters measurement mode within a few seconds for the same ~25-second capture window. The shared point is a consistent signal pipeline and algorithm across form factors, and this interview was filmed on the CES Las Vegas show floor in 2026, in the digital health section area.

From a go-to-market angle, Accurate Meditech is based in Taiwan and is actively looking for US distribution partners, which matters because cuffless BP products live or die by clinical evidence, labeling, and intended-use limits. The company also points to prior FDA 510(k) clearances in its product family, so if you’re evaluating microCare Clip, ask about supported age range, wrist fit, motion/noise rejection, and how often users should cross-check against an upper-arm cuff during routine care.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY

source https://www.youtube.com/watch?v=ohUw7RKa_Ko

Bosch / BSH Home Appliances frames the modern kitchen as a network of quiet, sensor-driven devices that share state over Wi-Fi via Home Connect, so cleaning, cooking, and maintenance become more predictable than “set and forget.” The tour treats dish care, cold storage, cooking, laundry, and floor care as measurable variables—humidity, soil level, temperature, and particles—plus UX details like decibel ratings and status indicators that keep the room readable. https://www.bosch-home.com/us/

Dishwasher coverage centers on drying physics and targeted hydraulics. AutoAir vents steam by popping the door after a cycle, while CrystalDry uses a sealed zeolite mineral cartridge to adsorb moisture and convert it to heat, improving plastic drying without relying on a traditional heating element. For stubborn loads, ZoneWash and PowerControl concentrate spray pressure into a selectable rack quadrant, and Bosch’s third-rack layout expands capacity while keeping small items positioned for consistent flow.

Later in the video (filmed at CES Las Vegas 2026), the fridge segment leans into thermal mass and compartmentalization: a stainless rear wall helps stabilize temperature, and a configurable “fourth drawer” adds presets for produce, beverages, wine, or meat and fish to isolate odor and humidity. The reliability angle is practical—filters, racks, and shelving are treated as service parts meant to stay available for years, not just cosmetic trim.

Cooking moves from “smart buttons” to assisted control. A Wi-Fi oven with true convection and multi-rack heat distribution pairs with recipe automation in Home Connect, voice control (Alexa / Google / SmartThings), and probe-based doneness alerts. Induction adds efficiency and fast boil via direct pan coupling, while AutoChef presets and the announced Cook AI workflow use a phone photo of ingredients to recommend temps, modes, and then transfer settings to an oven or cooktop.

Laundry and floor care round out the automation story. A compact, ventless heat-pump dryer trades high exhaust heat for gentler fabric handling, and Smart Dry coordinates washer-to-dryer settings; i-DOS intelligent dosing meters detergent based on load and turbidity sensing to reduce residue. On the cordless side, Unlimited 10 adds a particle sensor with a MicroClean LED ring, a compression slider for the bin, hyper filtration, and a 90° flex tube for low-clearance reach at home.

Bosch Dishwashers + Cook AI: CrystalDry zeolite, PowerControl zones, Home Connect workflow
Bosch Unlimited 10 MicroClean ring: particle sensing stick vacuum + 90° flex tube + compression

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY

source https://www.youtube.com/watch?v=D769ShvK0eQ

EmdoorXR (also referenced here as MDO XR) sits in the OEM/ODM layer of XR hardware, building reference designs and manufacturing programs that other brands can take to market under their own name. In this interview, Victor frames smart eyewear as a merge of consumer electronics and the traditional optical supply chain, where fit, hinge mechanics, acoustics, and cosmetics matter as much as the compute stack. https://vr.emdoor.com/

A big part of the talk is their Vision SE mixed-reality headset concept: a 4K micro-OLED display stack aimed at “watch, play, record” use rather than full spatial computing. The positioning is closer to a lightweight entertainment MR device with video-see-through passthrough, plus a simpler input model using 3DoF control for gaming and media play.

They also walk through the current wave of “AI camera” glasses that ship without a display: microphone, speakers, onboard battery, and a camera module with flash for quick capture and voice-first assistant workflows. EmdoorXR describes this class around Snapdragon AR1-level silicon, paired with imaging features like EIS and HDR, and typical reference specs in the category such as a 12MP ultra-wide sensor and 1440p/30 video, with IPX4-style water resistance, ~38 g weight, and battery targets around a full day of casual use.

On the AR side, Victor shows a prototype direction using waveguide optics and a small display module (noted as 580×300), with options spanning monocular to binocular layouts and the idea of plugging in different AI engines (he mentions Gemini as an example). The key subtext is modularity: standardizing “temple electronics” while leaving the front frame highly customizable, so brands can iterate style quickly while reusing RF, audio, battery, and camera building blocks, and still hit a realistic production schedule.

The interview was filmed at CES Las Vegas 2026, and it lands on a familiar industry bet: as displays, optics, and on-device AI get more efficient, AR glasses can absorb more of what people do on a phone, but only if comfort, aesthetics, and ecosystem support keep pace. EmdoorXR’s role is less about one flagship and more about enabling many launches at once, across carriers and consumer brands worldwide, in a form factor people will actually wear out here.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY

source https://www.youtube.com/watch?v=aopCMx98y7Y

Elektrobit lays out a practical path to software-defined vehicles by pairing a modular “smart EV” hardware base with a reusable software layer, so automakers can start from a standardized skateboard-style platform and then differentiate through their own apps, services, and UX. The focus is repeatable vehicle compute blocks, supply-chain control, and fewer vendor lock-in traps as programs scale. https://www.elektrobit.com/ces2026/

A core technical theme is making Linux viable where functional safety and determinism used to push teams toward proprietary RTOS stacks. Elektrobit’s EB corbos Linux for Safety Applications is positioned for ISO 26262 compliance up to ASIL-D, showing that safety-relevant workloads can run with a clear safety concept while still leveraging the Linux ecosystem. In the ADAS demo, they reference real-time execution around a 60 Hz loop rate and contrast it with the typical “tweak Linux and hope” approach, calling out QNX as a common alternative they aim to match, while keeping the Linux toolchain and middleware stack.

They also connect SDV pressure to developer throughput: ECU and system setups can be described via a Python API, and AI-assisted coding workflows (for example, prompting GitHub Copilot) can generate or modify that configuration instead of hand-writing boilerplate. The point is to shorten the describe–build–test cycle for embedded targets so teams spend more time on validation, integration, and behavior rather than repetitive wiring. This segment was filmed at CES Las Vegas 2026, on the show floor at the Elektrobit booth.

On the cockpit side, the story shifts to cloud-first iteration. EB civion Creator and the broader EB civion smart cockpit approach aim to let teams customize IVI/HMI quickly, push changes into simulators in the cloud, and then carry the same configuration onto real targets in minutes. The demo frames this as hardware-agnostic development for modern IVI stacks, including Android Automotive/AOSP-style workflows, and notes that the same software can be exercised on both AMD and Qualcomm platforms in a tight feedback loop.

Taken together, the booth narrative is “right-sized SDV”: standardize the parts that slow everyone down (platform, safety, tooling), and differentiate where drivers notice (features, UX, services) without waiting on full hardware availability. The Foxconn collaboration around EV.OS provides a reference hardware track, while Linux-for-safety and cloud cockpit tooling address two bottlenecks that often stall SDV programs: safety sign-off and UI/IVI iteration. It’s a cohesive view of how platform engineering can reduce time-to-market without claiming magic arc.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

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Monai’s Monai Baby is a Wi-Fi baby camera built around computer-vision alerts: auto-tracking, covered-face detection, cry detection, “danger zone” proximity warnings, and smart voice prompts that tell you when to check in. The demo also highlights higher-resolution capture (they mention 4K capability) with a phone-first app for remote viewing and shared caregiving. https://monaibaby.com/products/monai-wifi-smart-baby-monitor

A big focus is sleep analytics: the app turns continuous video into timelines of awake vs asleep, longest sleep, sleep counts, and day-level summaries, plus “moments capture” that auto-clips key scenes so you’re not scrubbing through hours of footage. Technically it’s a mix of motion, posture, and occlusion cues, with event scoring to reduce noisy notifications and keep context in the record.

Hardware is shown in multiple configurations, including a battery-backed “monitor nest” that drops onto a pogo-pin charging dock so you can move the camera between rooms without re-cabling. A flexible “crab” mount helps set tight angles while still supporting vertical tracking as the baby shifts in a crib or play area. On-camera pricing for the standard monitor with mount is $129, with a slightly higher tier discussed for a February launch.

The same stack extends into a travel-friendly smart crib (referred to publicly as the Monai Sleepod Baby Crib): a collapsible, luggage-style frame with a camera “stick” plus additional sensors aimed at heart rate, breathing, temperature, fever alerts, and longer-term growth tracking. Filmed at CES Las Vegas 2026, the pitch is multi-sensor fusion—video plus cardiopulmonary/thermal signals—to flag covered-face risk, climbing-out risk, and other safety states that are hard to infer from video alone. They describe an April launch in China first, then the US and Europe.

For parents, the interesting engineering questions are reliability and privacy: what runs on-device versus in the cloud, how microSD local storage is managed, and how false positives are handled when blankets, lighting, or fast motion confuse vision models. Because Monai is positioning the system as “always on” but portable, Wi-Fi stability and sensible alert thresholds matter as much as resolution. If you’re evaluating it, watch notification granularity, caregiver sharing controls, and how quickly the system recovers after a disconnect.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

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Perovskia Solar is a Swiss scale-up building custom-shaped, digitally printed perovskite photovoltaic cells that harvest energy from indoor light (and mixed indoor/outdoor use) to power ultra-low-power electronics like IoT sensors, electronic shelf labels, and wearables, with the goal of reducing or eliminating disposable batteries in deployed devices. https://perovskia.solar/technology/

In the demo, the core idea is simple: pair a thin perovskite PV “patch” with low-power hardware, then add a small energy buffer so the device keeps running through darkness. The e-paper-style table display uses a black PV region as the generator, and Perovskia describes variants using either a supercapacitor or a rechargeable battery so the device can survive about a week without light, while still targeting multi-year maintenance intervals. They also show form-factor flexibility for wearables (a smartwatch-style power concept), an electrochromic display concept for electronic labels, and a UV-exposure wearable feeding data to a phone app for personal exposure tracking and backup.

What makes this more than a lab story is the manufacturing narrative: a sheet-to-sheet inkjet printing process on glass with automated handling, positioned for mass customization rather than one fixed panel format. The company points to a production facility in Aubonne near Geneva and talks about throughput on the order of 1,200 substrates per hour, with capacity claims around roughly a million device-sized units per year, which aligns with the “many SKUs, many shapes” reality of IoT product design. This segment was filmed at CES Las Vegas 2026, but the focus stays on industrialization rather than a concept-only pitch there.

They also frame a roadmap beyond indoor harvesting: partnering toward perovskite-silicon tandem modules for outdoor generation, where the business case is competing on efficiency and energy yield as silicon module pricing keeps compressing. On durability, they cite extended operation testing (over 8,000 hours under full sunlight with no measured performance loss), plus environmental testing from about −40°C to +85°C, and a target to push usable lifetime toward 25 years so bankability starts to look like conventional PV today.

Commercially, Perovskia describes active customer work across the US and Europe (and at least one in India), alongside fundraising aimed at scaling deployments from pilots to products you can actually order in volume. The interesting technical tension is the one the whole perovskite field faces: stability, encapsulation/barrier stacks, qualification standards, and long-term trust, especially when moving from indoor lux-driven harvesting to outdoor UV/thermal stress. Their angle is to make perovskite PV behave like a “printed component” that engineers can spec into devices the same way they’d spec a sensor or display, and to make battery-free maintenance a default option where it makes sense here.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

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wan AIChef Ultra is pitched as an AI cooking appliance that tries to close the gap between “set a timer” ovens and outcome-based cooking. In the demo, you choose a dish from a recipe hub, load the ingredients, and let the unit estimate doneness as a live progress percentage rather than a fixed countdown. The UI shows a real camera image of the food and a real-time temperature curve while the control loop adjusts power and heating profile to hit a target finish state. https://www.global.wanaichef.com/products/wan-aichef-ultra

A key idea here is perception + feedback: an internal camera is used for ingredient recognition, and the presenter describes a sensor array (10+ sensors) measuring temperature at multiple points around the tray. Instead of relying on one probe inserted into the food, the system claims it can infer what’s happening across the cook cavity, then steer heat to avoid classic failure modes like overcooked edges and undercooked center. In practice, this looks like a closed-loop controller that continuously updates setpoints from live sensor data to manage heat.

On the software side, wan AIChef describes a self-developed “Zhurong” Cooking Large Model, with an Android-style touch UI and a recipe hub (the demo mentions ~1,000 recipes, with recognition for hundreds of ingredients). There’s also an app workflow for shopping: pick a recipe, generate a grocery list with quantities, then come home and execute the cook with one-touch start. For higher control, “chef mode” exposes parameters like temperature, time, and power so kitchens or canteens can tune a dish profile rather than accept a fixed preset mode.

Hardware-wise, the presenter frames it as a hybrid that can do both oven heating and microwave, but with more granular temperature control than a traditional fixed-power microwave program. In the video, a salmon cook finishes in 6 minutes 53 seconds, with the unit flagging completion at 100% and claiming the plate stays cooler than the food because it is monitoring temperatures across different zones. This segment was filmed at CES Las Vegas 2026.

Commercially, wan AIChef says it won a Red Dot award in 2025 and positions the platform around “device + recipe platform” for home users, plus configurable menu workflows for professional settings. The in-booth pricing mentioned is $3,999, with a show discount of $1,000, and the company highlights multi-step guided prep (ingredients, steps, then cook) as the main way it lowers the skill barrier while still aiming for repeatable texture and finish today.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

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Neewer has been known for affordable lighting and rigs aimed at photographers and streamers, and this video looks at how the same control concepts are being repackaged for everyday rooms. The new NEEWER Home ecosystem focuses on app-driven lighting where brightness, CCT, RGB effects, and device grouping are handled from a phone, turning “creator lighting” controls into routine home automation. https://neewer.com/

On the home side, the walkthrough shows familiar ring lights alongside decorative LED tube lights, fairy strings, and modular wall fixtures, all designed for quick scene changes rather than fixed illumination. There’s an emphasis on effects mode, two-tone color looks, and audio-reactive “speaker lights” that respond to music, plus early looks at outdoor-style sconces and a small white-noise unit intended to add background ambience for sleep.

Midway through the booth tour at CES Las Vegas 2026, the key message is that Neewer is widening from studio tools into a broader “mood lighting” category without losing the knobs creators care about: intensity, color temperature, and repeatable presets. The NEEWER Home app is positioned as the common control layer, so the same phone that runs your stream can also manage lighting scenes across a living space.

For mobile-first production, Mike also highlights Neewer’s smartphone cage approach: a rigid phone rig with 1/4″-20 threads and cold-shoe mounts for handles, mics, LEDs, and even add-on lenses. The DJI Pocket 3 accessory stack is another practical touch—protective cover options and a clip-on magnetic top light—plus a compact teleprompter that mirrors a laptop to a monitor-and-mirror hood so you can read script while keeping eye line on camera.

The heavier studio gear rounds it out with high-output COB fixtures that need external ballasts for power delivery and control. Neewer’s 600W bi-color COB class (e.g., AS600B) typically targets 2700–6500K with high CRI/TLCI and can reach around 99,000 lux at 1 m with a reflector, while the 1200W tier (AS1200B) pushes key-light levels for larger stages; a weather-sealed variant is shown to tolerate spray and rain on a wet set.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY

source https://www.youtube.com/watch?v=AN6bBx5VbM4

LG’s 2026 webOS pitch is an AI-driven home screen that can route a question to either Microsoft Copilot or Google Gemini, while framing privacy and integrity under “LG Shield.” In this booth demo, the AI Magic Remote is the control surface: a mic plus an AI button for natural-language search, quick follow-up prompts, and on-screen assistance without juggling multiple menus in the UI. https://www.lg.com/

The most practical feature shown is My Page (per-profile dashboards) paired with Voice ID, so each household member can speak and land on a different mix of apps, widgets, and recommendations. Instead of only tracking watch history, the UI tries to capture intent like “I’m sad, I need comedy,” or “football playoffs,” then pulls matching titles across LG Channels and major streaming apps, with YouTube and even game discovery in the same recommendation graph there.

Midway through, the rep shows a visual “AI pipeline” view: preferences and voice inputs are processed, matched against catalogs, and synchronized back into webOS so the same profile can follow you to another TV when you sign in with an LG account. This interview was filmed at CES Las Vegas 2026, and it’s essentially a tour of how LG wants personalization, cloud inference, and cross-app indexing to reduce the time spent deciding what to watch in a typical living-room demo.

Rollout is described as a staged launch around April 2026 across webOS models, with the AI layer sitting alongside LG’s usual picture pipeline (alpha-series AI processing, upscaling, motion smoothing, and color tuning). A key limitation is also made clear: Copilot vs Gemini is a user choice per profile, and the system learns patterns to improve recommendations rather than automatically picking “the best model” for you from the remote.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

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source https://www.youtube.com/watch?v=xhEt214m7rk

AGIBOT’s booth demo focuses on three tiers of humanoid robotics: the X2 for expressive motion and HRI, the G2 for industrial manipulation, and the A2 for front-desk style service work, all framed around embodied AI rather than scripted animatronics. The core idea is a reusable perception–planning–control stack that can scale from entertainment gestures to contact-aware manipulation, with an emphasis on fast content authoring for demos and deployment. https://www.agibot.com/products/X2

On the X2, the headline is compact whole-body motion with roughly 25–30 degrees of freedom, enough for head and waist articulation, coordinated arm swings, and stable footwork while it runs choreographed routines. In the interview, new dances are described as being learned from a performer video, converted into a BVH-style motion file on an internal platform, then retargeted to the robot’s kinematic chain via inverse kinematics, timing alignment, and balance constraints so it can execute repeatably today.

The G2 segment shifts from showmanship to production constraints: precise joints, force/impedance control, and vision-driven action selection for tasks like wiping a glass panel, pick-and-place, and packing. The team says it is already deployed in China, starting as a 10-unit MVP and aiming to expand to about 120 units for a single factory, matching the direction of wheeled-humanoid manipulators optimized for uptime, payload handling, and safer close-proximity work.

A2 is presented as an interactive service robot (nicknamed Luka in the demo) aimed at proactive greeting in hotels, company lobbies, and event reception, mixing motion libraries with conversational AI. The architecture described is hybrid: local locomotion and some vision processing run on-device (a 16-core CPU plus a Jetson-class GPU), while higher-level language/vision models can be cloud-backed when connectivity allows, which is a practical fit for a noisy show floor at CES Las Vegas 2026.

Across all three robots, the interesting engineering thread is how motion libraries, multimodal perception, and safety behaviors (collision detection, compliant arms, recovery balance) are being packaged into reusable skills rather than one-off demos. If AGIBOT keeps tightening the loop between data capture, imitation/RL training, and real-world task validation, the roadmap hinted here—more dexterous manipulation, reliable handoffs like room-card delivery, and broader business scenarios—reads like a credible roadmap.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

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source https://www.youtube.com/watch?v=__l-cN_4blA

AC Future walks through a pre-production expandable motorhome concept built around an oversized slide-out architecture: it’s about 26 ft long in drive mode, then collapsible modules deploy at camp to turn the footprint into a much larger “apartment-like” space without towing extra length on the highway. The pitch is simple engineering leverage: fewer fixed interior constraints, more transformable volume, and a one-button setup workflow aimed at making large-format RV living less tedious. https://acfuture.com/

Inside, the layout leans toward residential hardware rather than typical RV compromises: modular lounge seating, a full-size kitchen with deep sink, electric cooktop, large fridge/freezer, plus a built-in dishwasher. The wet area is specced like a small apartment too, with an all-in-one washer/dryer, a full shower, and a standard residential toilet, pushing the design toward long-stay comfort and everyday use.

Later in the tour (filmed at CES Las Vegas 2026), AC Future frames this as a functioning proof-of-concept that’s still in engineering sign-off, with design and engineering based in Southern California and a phased go-to-market plan. The electric motorhome pricing mentioned is about $328k, with gas/diesel variants roughly $100k less, and the company says the trailer ships first, with the motorized coach following once supply chain and chassis work are locked to goal.

Power and controls are treated like an off-grid energy system: “everything electric” in the coach, a large battery pack, and a rooftop solar array described as 5 kW, with an iPad UI that centralizes HVAC, system status, and projected resource remaining time (with “AI features” planned for water/energy telemetry). The same control philosophy carries into the trailer concept, where a motorized axle provides tow assist so an EV tow vehicle doesn’t take the usual range penalty, and the trailer itself is described with a ~100 kWh lithium pack and roughly 300 miles of assisted travel range.

The most interesting technical risk is also the core differentiator: long-stroke slide mechanisms and fold-away structures have to survive vibration, sealing, and thermal cycling for years, not demos. AC Future says they’ve been testing the expansion hardware for about two years without failures, and they’re also mapping the platform into adjacent formats like a trailer and an ADU-style unit to spread the same transformable architecture beyond a single RV body style on road.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

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Dreame’s Aqua10 Ultra Roller is positioned as a robot vacuum + mop combo that leans on a roller-mop module instead of the more common dual spinning pads. In the clip, it navigates tightly around chair legs, then switches into edge work with an extendable side brush and an extending mop reach for wall lines and corner pick-up. Dreame also highlights an anti-entanglement main brush design aimed at long hair and pet fur, plus a retail price mentioned around US$1,200 for the roller-mop model shown. https://www.dreametech.com/products/aqua10-roller-robot-vacuum

Roller mopping is interesting because it can keep a longer contact patch on the floor, pushing more consistent shear force through the wipe compared to small rotating pads, especially on sticky spills and dried residue. Dreame pairs that with continuous self-cleaning while mopping and a high-temperature roller wash mode (the Aqua10 Roller pages cite 100°C / 212°F cleaning), which is meant to reduce “dirty drag” and odor buildup when you’re doing large areas. Add obstacle avoidance plus threshold handling (Dreame lists ~2.36 in / ~6 cm crossing on the product pages), and the design goal becomes fewer manual resets per room.

Later in the video (filmed at CES Las Vegas 2026), the discussion shifts from shipping products to concept hardware: a “Cyber” series robot with a fold-out robotic arm that can grip small items like socks and move them to a chosen spot. That pushes robot vacs into manipulation, where you suddenly need robust object recognition, grasp planning, safe force limits, and reliable error recovery, not just SLAM navigation and suction control. The presenter frames it as a future feature rather than something you can buy today, which matches the “demo closed / not released yet” context in the clip.

A second concept, Cyber X, tackles multi-floor cleaning with a carrier that can climb stairs while transporting a smaller robo-vac, then deploy it on the upper floor and bring it back when finished. Architecturally, that’s a different bet than legged stair-climbing vacs: instead of making one robot do everything, you split locomotion (stair mobility) from cleaning (vac/mop), which could simplify the cleaning module while keeping the “two-story” promise. It’s still early-stage, but it hints at where home robotics is going: moving from single-room coverage to whole-home autonomy.

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 ), watch all my DJI Pocket 3 videos here https://www.youtube.com/playlist?list=PL7xXqJFxvYvhDlWIAxm_pR9dp7ArSkhKK

Click the “Super Thanks” button below the video to send a highlighted comment under the video! Brands I film are welcome to support my work in this way 😁

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source https://www.youtube.com/watch?v=XO46fb4JUzg

Dreame walks through a compact “whole-kitchen” lineup where cold storage, beverage prep, and countertop cooking are treated like one integrated appliance stack rather than isolated gadgets. The demo focuses on practical UX details—organized zones, quick-access modules, and purpose-built machines that reduce the number of separate steps in everyday meal prep. https://www.dreametech.com/

The standout is a fridge concept that pairs traditional compartmentalized storage with an instant sparkling-water function via a built-in CO2 cylinder, turning the door-opening moment into a beverage workflow. It’s framed as “sparkling in seconds,” with the idea that carbonation is handled inside the appliance rather than via a standalone countertop carbonator. Alongside it, the Aura Bullet Ice Maker is positioned as a dedicated bullet-ice system for fast chilling and consistent ice

On the cooking side, the booth shows a mix of built-in and countertop gear: microwave plus oven, then air-frying with the DC30 dual-zone steam-crisp unit, which implies independent chambers and a humidity/heat balance aimed at keeping texture while avoiding dryness. For baking and drinks, the Bione MX60 mixer and the Blend Logic blender cover dough/batter and smoothie workflows, and an espresso machine with an integrated milk area rounds out the “from beans to milk drink” path. The footage is filmed at CES Las Vegas 2026, and it plays like a quick tour of how these modules fit together in a modern kitchen setup today

What ties the segment together is the trend toward appliance ecosystems: cold storage that also handles beverage carbonation, dedicated ice production, and multi-mode countertop cooking that targets repeatability (time/temperature/steam) more than chef skill. If Dreame keeps pushing in this direction, the technical differentiator won’t just be watts or liters, but how well each module is engineered for maintenance (CO2 refills, cleaning paths), consistency (ice geometry, airflow, steam delivery), and a kitchen workflow that feels more like a coordinated system than a shelf of disconnected devices for daily life

I’m publishing about 100+ videos from CES 2026, I upload about 4 videos per day at 5AM/11AM/5PM/11PM CET/EST. Check out all my CES 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjaMwKMgLb6ja_yZuano19e

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Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY

source https://www.youtube.com/watch?v=ZTVR-btlTt4