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"path": "/engineering-challenges-and-component-strategies-in-humanoid-robotics-from-prototype-to-production/",
"publishedAt": "2026-03-19T10:00:05.000Z",
"site": "https://content.knowledgehub.wiley.com",
"tags": [
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"Motion-control",
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"Download this free whitepaper now!"
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"textContent": "\n\n\n\nA technical examination of the sensing, motion control, power, and thermal challenges facing humanoid robotics engineers — with component-level design strategies for real-world deployment.\n\nWhat Attendees will Learn\n\n 1. Why motion control remains the hardest unsolved problem — Explore the modelling complexity, real-time feedback requirements, and sensor fusion demands of maintaining stable bipedal locomotion across dynamic environments.\n 2. How sensing architectures enable perception and safety — Understand the role of inertial measurement units, force/torque feedback, and tactile sensing in achieving reliable human-robot interaction and collision avoidance.\n 3. What power and thermal constraints mean for system design — Examine the trade-offs in battery chemistry selection (LFP vs. NCA), DC/DC converter topologies, and thermal protection strategies that determine operational endurance.\n 4. How the industry is transitioning from prototype to mass production — Learn about the shift toward modular architectures, cost-driven component selection, and supply chain readiness projected for the late 2020s.\n\n\n\nDownload this free whitepaper now!",
"title": "Overcoming Core Engineering Barriers in Humanoid Robotics Development"
}