Which companies collaborated on the demonstration of a high-capacity, low-latency communication environment in the Mizushima Complex?

NTT East Corporation, NTT Docomo Business, Inc., NTT Docomo Solutions, Inc., NTT DATA Group Corporation, 1Finity Corporation, and Mitsubishi Chemical Corporation collaborated on the demonstration in the Mizushima Rinkai Industrial Zone.

What specific technologies were used in the February 2026 verification test for smart maintenance in Okayama Prefecture?

The verification test in February 2026 used IOWN® APN and 60GHz band wireless LAN, also known as WiGig, to establish a high-capacity, low-latency communication environment.

Where was the high-capacity, low-latency communication environment verification conducted in February 2026?

The verification was conducted in the Mizushima Rinkai Industrial Zone, located in Okayama Prefecture, Japan, during February 2026.

What problem does the joint project aim to solve for outdoor factory equipment inspections?

The project aims to reduce worker burden during outdoor factory equipment inspections by enabling smart maintenance through improved communication environments and AI integration.

What outcome was confirmed from the communication environment verification in the Mizushima Complex?

The verification confirmed that a high-capacity, low-latency outdoor communication environment enables smart maintenance using external computing resources like AI and cloud systems.

AI News NQ Analysis

Demonstration of High-Capacity, Low-Latency Communication Environment Supporting Advanced Industrial Complexes with IOWN® APN and 60GHz Band Wireless LAN

NQ Score 100/100

AI Summary (NQ-processed)

NTT Group, 1Finity, and Mitsubishi Chemical successfully demonstrated a high-capacity, low-latency communication environment for advanced industrial complexes using IOWN APN and 60GHz band wireless LAN (WiGig). The verification, conducted at the Mizushima Complex in Okayama Prefecture, connected a building in Tokyo (approx. 700km away) via IOWN APN and established a WiGig wireless environment over a 2km section within the complex in about 6 hours. It confirmed the ability to transmit video data from eight 4K cameras with less than 0.1 seconds of latency, demonstrating the feasibility of outdoor smart maintenance.

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Frequently Asked Questions

Q: Which companies collaborated on the demonstration of a high-capacity, low-latency communication environment in the Mizushima Complex?: A: NTT East Corporation, NTT Docomo Business, Inc., NTT Docomo Solutions, Inc., NTT DATA Group Corporation, 1Finity Corporation, and Mitsubishi Chemical Corporation collaborated on the demonstration in the Mizushima Rinkai Industrial Zone.
Q: What specific technologies were used in the February 2026 verification test for smart maintenance in Okayama Prefecture?: A: The verification test in February 2026 used IOWN® APN and 60GHz band wireless LAN, also known as WiGig, to establish a high-capacity, low-latency communication environment.
Q: Where was the high-capacity, low-latency communication environment verification conducted in February 2026?: A: The verification was conducted in the Mizushima Rinkai Industrial Zone, located in Okayama Prefecture, Japan, during February 2026.
Q: What problem does the joint project aim to solve for outdoor factory equipment inspections?: A: The project aims to reduce worker burden during outdoor factory equipment inspections by enabling smart maintenance through improved communication environments and AI integration.
Q: What outcome was confirmed from the communication environment verification in the Mizushima Complex?: A: The verification confirmed that a high-capacity, low-latency outdoor communication environment enables smart maintenance using external computing resources like AI and cloud systems.