GRAPHERGIA’s Post

An RTD (Resistance Temperature Detector): is a sensor whose resistance changes as its temperature changes. The resistance increases as the temperature of the sensor increases. The resistance vs temperature relationship is well known and is repeatable over time. RTD vs Thermocouple: RTDs have a slower response time than thermocouples but are more accurate over a wider temperature range. In high-temperature applications, thermocouples tend to have a faster response time, but their accuracy can be affected by electromagnetic interference. Yeti Instruments - All sensors MADE in THE USA  #innovation #ai #instruments #sensors #device #instruments #governmentcontracting #madeinusa #madeinus #biomedical #usagovernment #contracting #device #iot #internetofthings #yetiinstruments #technology #creativity #future #entrepreneurship #markets #startups #venturecapital #leanstartups #branding #advertisment #investing #sustainability #customer #NASA #atmospheric #future

How do aircraft and space manufacturing companies significantly reduce cost and schedule when vehicles are getting more complex, while reducing energy usage and carbon footprint? They need to adopt digital transformation to unleash the future of advanced manufacturing! I had the honor today to present one of the Keynote presentations at the World Advanced Manufacturing Symposium (WAMS) 2024 today in Orlando. This conference is co-organized by NASA and ESA, and is focused on advancing new manufacturing technologies to help NASA and ESA achieve ambitious goals including to return to the moon, human space travel to Mars, and space exploration. I shared how companies are achieving, and exceeding, their cost, schedule, quality and sustainability objectives by adopting digital solutions: 🚀 The industrial metaverse, leveraging an open ecosystem with partners, that is built on the physics of the comprehensive digital twin, to aggregate data from many systems and provide a complete view of simulations, factory operations, data analytics and high definition visualizations. 🚀 The comprehensive digital twin to simulate new production lines to optimize new production lines to reduce energy usage and rework, and then virtually commission your factory prior to making large scale investments in the real factory equipment to reduce the risk of finding problems when you stand up your factory line. 🚀 Implement intelligent production solutions through edge devices that bring the data to the digital twin using IoT, and then using data analytics to optimize operations. 🚀 Advanced tech such as immersive engineering and manufacturing, additive manufacturing, and AI/ML, to increase productivity and worker satisfaction. Truly game changing technology that is deployed faster when integrated into an open platform and ecosystem. I’m excited about the future of manufacturing in Aerospace as companies and agencies adopt digital tranformation! #digitaltransformation #siemensxcelerator #futureofmanufacturing

🚀🌌 The Internet of Things (IoT) and Artificial Intelligence (AI) in Orbit: A New Frontier of Space Innovation! 🤖🛰️ IoT combined with AI in space might just be the next big technological breakthrough. By pushing the boundaries of what’s possible, these technologies are opening up fascinating applications that could transform how we understand, explore, and manage space. 🌠✨ Imagine this: satellites that can self-repair before anything breaks, inter-satellite networks that optimize communications in real-time, or spatial sensors that monitor our planet to prevent natural disasters. 🌍🔍 Here are some inspiring avenues to open the chakras of innovation 🚀💡: 🌌 Predictive Maintenance: Satellites that monitor their own health, detect anomalies, and predict maintenance needs before issues arise. No more unexpected breakdowns! 🛰️ Space Traffic Management: AI and IoT can track and manage traffic to prevent collisions, acting like air traffic controllers for space. 📡 Environmental Data Collection: Orbiting sensors to track ocean currents, extreme temperatures, and help predict climate change. 🤖 Automated Operations: Satellites capable of making autonomous decisions, adjusting their paths, or optimizing their instruments to maximize data collection. 🛡️ Real-Time Surveillance: Keeping an eye on critical infrastructures from space, detecting threats in real-time, and protecting what matters. ♻️ Space Debris Detection: Space is getting crowded. AI can detect, track, and even predict the movement of debris to avoid catastrophic collisions. 🌾 Precision Agriculture from Space: Monitoring soil moisture, crop health, and more to help farmers maximize their yields. 🌌 Automated Exploration: Rovers on Mars or drones on the Moon collaborating in real-time to optimize every mission. 🔗 Intelligent Space Sensor Networks: Collecting spatial data to better understand radiation and orbital conditions, protecting our satellites and astronauts. 👉 Be inspired by these possibilities: How could your sector change if space became as smart as Earth? Innovation knows no bounds! #Innovation #Technology #IoT #AI #SpaceExploration #SpaceTech #Inspiration

𝐒𝐚𝐭𝐞𝐥𝐥𝐢𝐭𝐞 𝐌𝐚𝐧𝐮𝐟𝐚𝐜𝐭𝐮𝐫𝐢𝐧𝐠 𝐈𝐧𝐝𝐮𝐬𝐭𝐫𝐲: 𝐂𝐡𝐚𝐥𝐥𝐞𝐧𝐠𝐞𝐬 𝐚𝐧𝐝 𝐆𝐫𝐨𝐰𝐭𝐡 𝐏𝐫𝐨𝐬𝐩𝐞𝐜𝐭𝐬 (𝐋𝐚𝐭𝐞𝐬𝐭 𝐈𝐧𝐟𝐨𝐫𝐦𝐚𝐭𝐢𝐨𝐧) The satellite manufacturing market was valued at $16.2 billion in 2021, and is projected to reach $27.3 billion by 2031, growing at a CAGR of 5.7% from 2022 to 2031. 𝐃𝐨𝐰𝐧𝐥𝐨𝐚𝐝 𝐒𝐚𝐦𝐩𝐥𝐞 @ https://lnkd.in/g_v7cpxF Several new firms have entered the satellite industry in recent years, intending to launch small, relatively affordable satellites with capabilities equal to those given by established large-size satellites. The arrival of this new paradigm has sparked rivalry with current large-satellite producers, altering the game's rules and posing a challenge to long-established industry participants, whose old manufacturing processes are being challenged. As a result, in the current space-industry environment, adopting innovative manufacturing methods by the satellite manufacturers is not only desirable, but also necessary for increasing efficiency and competitiveness.   The satellite manufacturing market is segmented into Application, Satellite Type and Size. These devices must be able to withstand space radiation (to avoid damage to internal components), be sufficiently resistant to the pressure of travelling through space at a constant speed of 700 kilometers per hour, and be strong enough to withstand possible impacts from space debris or smaller asteroids. 𝑭𝒐𝒓 𝑴𝒐𝒓𝒆 𝑰𝒏𝒇𝒐𝒓𝒎𝒂𝒕𝒊𝒐𝒏 @ https://lnkd.in/gWVaV3mG 𝐓𝐨𝐩 𝐋𝐞𝐚𝐝𝐢𝐧𝐠 𝐊𝐞𝐲 𝐏𝐥𝐚𝐲𝐞𝐫𝐬 𝐚𝐫𝐞 Rocket Lab | The Aerospace Corporation | SSL | Teledyne Technologies Incorporated | Spellman High Voltage Electronics Corporation | MP Biomedicals | Diodes Incorporated| Hamamatsu Corporation | Mesa Natural Gas Solutions | British Columbia Institute of Technology | Teltonika Telematics | Vodafone IoT | TERMA Group | IQE | Teledyne Defense Electronics | Lorne Stewart Group

🚀 Aerospace Innovation: Shaping the Future of Flight 🌠 In the ever-evolving aerospace sector, innovation is the driving force behind soaring advancements. Recent reports and articles shed light on the vital role of technology in reshaping the industry: 🛰️ Cutting-Edge Materials: Aerospace pioneers are exploring novel materials, like carbon composites, to make aircraft lighter, more fuel-efficient, and eco-friendly. 🌐 Digital Transformation: The integration of data analytics, IoT, and AI is revolutionizing maintenance, operations, and passenger experiences. 🛩️ Green Propulsion: Sustainable propulsion systems are at the forefront, with electric and hybrid aircraft gaining momentum to reduce emissions. 🌌 Space Exploration: The aerospace sector is not limited to our skies; it's reaching for the stars with missions to explore the cosmos. 🚀 Innovators in Action: Companies like VAC AERO play a vital role in supporting these advancements, offering metallurgical solutions that ensure quality and reliability. Stay tuned for more insights into the dynamic world of aerospace innovation! ✈️🌟 👉 https://vacaero.com/ #vacaero #vacsquad #teamvac #B2B #service #product #vacuumfurnace #industrial #heattreating #coatings #innovation #technology #aerospace #Canada #industryinsights #futurofindustry #futur #development

✈️ Unlocking the Power of Data Science in Aerospace 🚀 The aerospace industry is soaring to new heights with the help of Data Science. From improving aircraft performance to revolutionizing space exploration, data-driven insights are making a significant impact. Here are some key applications: 🔧 Predictive Maintenance With real-time data from sensors and IoT devices, data science enables predictive maintenance, reducing downtime and improving safety by identifying potential issues before they become critical. 🌐 Flight Optimization Data science is used to optimize flight routes, fuel consumption, and air traffic management. Machine learning models analyze weather patterns, traffic, and fuel efficiency to enhance overall flight operations, reducing costs and environmental impact. 🛰️ Satellite Data Analysis Satellites generate massive amounts of data daily. Data science helps in processing and analyzing this data for applications like climate monitoring, disaster management, and urban planning. 📊 Aircraft Design & Testing Advanced simulations powered by data analytics reduce the time and cost associated with aircraft design and testing. Engineers use data models to predict aircraft behavior under different conditions, speeding up the innovation cycle. 🌌 Space Exploration From analyzing cosmic data to optimizing spacecraft navigation, data science is at the heart of modern space exploration, helping us uncover the mysteries of the universe. The aerospace industry is a prime example of how data science can revolutionize sectors that depend on precision and innovation. The future is bright as we continue to explore new horizons with data-driven strategies! What other industries do you think data science can transform? Let’s discuss in the comments! . . . . . . . . . . . . . . . . . . . . . . Follow IIDST For more such updates! #DataScience #Aerospace #AI #MachineLearning #SpaceExploration #Innovation #DigitalTransformation #Future #Development #IIDST #Upskilling

Revolutionizing space debris tracking! Our latest research paper presents a groundbreaking Maximum Likelihood localization algorithm, designed to accurately determine and track space debris in LEO - or any mobile objects without GNSS access! #space #research #innovation I'm thrilled to announce that our recent paper titled "Maximum likelihood localization of a network of moving agents from ranges, bearings and velocity measurements" has been accepted. This work is a result of our continuous efforts to develop a principled, robust localization algorithm for mobile networks, especially beneficial in scenarios where GNSS solutions are unavailable. In this paper, we present a parameter-free, outlier-robust and trajectory-agnostic algorithm that does not rely on any specific anchor configuration. Our solution offers near-constant positioning error, irrespective of the trajectories of agents and anchors. It's designed to be scalable for large networks and avoids a single point of failure. Notably, our simulations have shown performance comparable to, or even better than, current state-of-the-art methods. The applications of this research are vast, from vehicular networks and IoT to space debris tracking in Lower Earth Orbit, when there is no GNSS access. This work was led by Filipa Valdeira, a researcher at NOVA Laboratory for Computer Science and Informatics, Faculdade de Ciências e Tecnologia da Universidade NOVA de Lisboa, and in the context of the #PRR AI Fights Space Debris, coordinated by Neuraspace. I am proud of our team's accomplishment and look forward to seeing the impacts of our work in the real world. Stay tuned for more exciting updates! #localizationalgorithm #teamwork #spacedebris  #spacesustaiability #aerospace

🚀 Aerospace Innovation: Shaping the Future of Flight 🌠 In the ever-evolving aerospace sector, innovation is the driving force behind soaring advancements. Recent reports and articles shed light on the vital role of technology in reshaping the industry: 🛰️ Cutting-Edge Materials: Aerospace pioneers are exploring novel materials, like carbon composites, to make aircraft lighter, more fuel-efficient, and eco-friendly. 🌐 Digital Transformation: The integration of data analytics, IoT, and AI is revolutionizing maintenance, operations, and passenger experiences. 🛩️ Green Propulsion: Sustainable propulsion systems are at the forefront, with electric and hybrid aircraft gaining momentum to reduce emissions. 🌌 Space Exploration: The aerospace sector is not limited to our skies; it's reaching for the stars with missions to explore the cosmos. 🚀 Innovators in Action: Companies like VAC AERO play a vital role in supporting these advancements, offering metallurgical solutions that ensure quality and reliability. Stay tuned for more insights into the dynamic world of aerospace innovation! ✈️🌟 👉 https://vacaero.com/ #vacaero #vacsquad #teamvac #B2B #service #product #vacuumfurnace #industrial #heattreating #coatings #innovation #technology #aerospace #Canada #industryinsights #futurofindustry #futur #development

🛰️ The Dawn of Low Earth Orbit (LEO) Satellites in Bridging the Urban-Rural Divide! 🌐🌳 The recent advancements in LEO satellite technology have believers and skeptics alike buzzing. These satellites promise to deliver high-speed internet access to the most remote corners of the planet, potentially revolutionizing how we think about connectivity in smart cities and rural areas alike. But can they truly bridge the digital divide? 🤔💻 With their low latency and growing constellations, LEO satellites offer a compelling solution for bringing essential online services to underserved communities. This could be a game-changer for telemedicine, online education, and IoT deployment across vast agricultural lands. 🌾📚 As we witness this shift, it's clear that collaboration between governments, tech companies, and communities will be pivotal. Are we ready to embrace this technological leap towards a more connected world? 💡🔗 #DigitalDivide #SatelliteInternet #Innovation