Planck Vision Systems manufactures thermal imaging solutions for portable inspection and 24/7 monitoring of commercial applications including: Early Fire Detection, Manufacturing, Substations and Tunnels, Electrical Panel/Cabinets, Storage Facilities, Data Centers and Elevated Body Temperature Screening. Our company is headquartered in Santa Barbara CA, the capital of infrared sensing technologies in the United States.
On December 10, 2024, Japan’s space agency, JAXA, halted an engine test for its Epsilon S rocket after a fire broke out at the test site in southwestern Japan. The fire occurred shortly after ignition during engine combustion testing, causing an “abnormality.” There were no reported injuries or damage to the surrounding facilities, but the test failure follows a series of previous delays and setbacks. The estimated loss from this incident could be in the range of $5 million.
NEWS
On December 10, 2024, Japan’s Japan Aerospace Exploration Agency (JAXA) faced another setback in its ambitions to develop a reliable launch vehicle for satellite missions. The agency had been testing the engine combustion of its Epsilon S rocket when a fire broke out at the test site in southwestern Japan. This incident followed shortly after the ignition of the rocket engine and was described as an “abnormality.” Videos from the scene show flames erupting at the test site, leading to an immediate halt in the test.
While there were no reports of injuries, and no damage was done to the surrounding facilities, the malfunction has raised concerns about further delays in Japan’s space program. The incident also comes after a similar issue in 2023 that caused months of reviews and delays, impacting Japan’s space exploration schedule. The Epsilon S rocket, which is being developed in collaboration with IHI, a major Japanese manufacturer, is crucial for Japan’s goal of entering the competitive satellite launch market.
JAXA had planned to launch a demonstration model of the Epsilon S rocket by the end of March 2025, but this latest test failure will likely push that timeline further back. The H3 rocket, Japan’s other main rocket, also faced several delays and a failed launch attempt before it successfully entered orbit earlier this year. Moreover, Japan’s first satellite launch attempt by a private company, Space One, ended in failure when its rocket exploded shortly after liftoff in March.
The estimated financial losses from this setback could range around $5 million, considering the costs associated with the testing, engineering, and development of the rocket. Japan is striving to tap into the booming satellite launch market, projected to exceed $400 billion by the end of the decade, a significant increase from the $250 billion market value in 2024. Despite this, Japan faces stiff competition from dominant players like SpaceX, Arianespace, and United Launch Alliance.
In such high-stakes operations, early fire detection is critical to ensuring the safety of the equipment, infrastructure, and personnel involved. Planck Vision Systems offers advanced thermal imaging technology that provides unparalleled protection by detecting temperature variations before they escalate into critical failures. With its always-on technology, it ensures that potential issues are identified early, preventing system malfunctions and reducing risks.
Through its thermal imaging systems, Planck Vision Systems helps industries like aerospace, manufacturing, and energy detect anomalies in real time, ensuring that high-cost assets are protected, and operations can proceed smoothly. As Japan continues to develop its space launch capabilities, technologies that support early fire detection are becoming more important than ever to mitigate risks and safeguard valuable resources.
For Heavy Industry, Planck Vision Systems leads with superior thermal imaging tailored for diverse industries. Beyond detecting minute temperature variations, our always-on technology ensures system protection, operational excellence, and catches every anomaly. This vigilance minimizes risks, preempting system failures and potential threats.
English 
繁體中文 
Deutsch 
Español 
Français 
日本語 
한국어