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#motorcontrol — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #motorcontrol, aggregated by home.social.

  1. NXP Delivers New Innovations for Advanced Physical AI with

    Secure, reliable real-time data processing and transport solutions for next-generation physical AI applications, developed in collaboration with NVIDIANVIDIA…
    #Netherlands #Nederland #NL #Europe #Europa #EU #NXP #FunctionalSafety #humanoidrobotics #i.MX #i.MXRT #Inc. #MotorControl #Nasdaq:NXPI #NVIDIAHoloscanSensorBridge #NXPUSA #PhysicalAI #robotics #security
    europesays.com/netherlands/519

  2. By adding a HAT, you can easily control multiple motors with your Raspberry Pi. ⚙️

    In particular, some "Motor Driver HATs" can simultaneously control both DC and servo motors, allowing you to build a complete robot drive system with just one HAT. 🤖💡

    It's a great choice for electronics projects and homemade robots. ✨
    The photo shows SunFounder's RobotHAT.

    🔥 Top 6 Raspberry Pi eBooks for $20 V2
    ebokify.com/top-6-Raspberry-pi

    #RaspberryPi #Electronics #Python #RobotControl #MotorControl

  3. By combining a Raspberry Pi with an H-bridge circuit, you can learn practically how to operate a DC motor with PWM control. ✨

    The key point is that you can control the motor's rotation speed and direction by quickly switching the voltage on and off through the GPIO output.

    This is a great way to experience the integration of hardware and software. 💡

    🔥 Top 6 Raspberry Pi eBooks for $20 V2
    ebokify.com/top-6-Raspberry-pi

    #Python #RaspberryPi #Electronics #MotorControl #LearningProgramming

  4. By combining a Raspberry Pi with an H-bridge circuit, you can learn practically how to operate a DC motor with PWM control. ✨

    The key point is that you can control the motor's rotation speed and direction by quickly switching the voltage on and off through the GPIO output.

    This is a great way to experience the integration of hardware and software. 💡

    🔥 Top 6 Raspberry Pi eBooks for $20 V2
    ebokify.com/top-6-Raspberry-pi

    #Python #RaspberryPi #Electronics #MotorControl #LearningProgramming

  5. By combining a Raspberry Pi with an H-bridge circuit, you can learn practically how to operate a DC motor with PWM control. ✨

    The key point is that you can control the motor's rotation speed and direction by quickly switching the voltage on and off through the GPIO output.

    This is a great way to experience the integration of hardware and software. 💡

    🔥 Top 6 Raspberry Pi eBooks for $20 V2
    ebokify.com/top-6-Raspberry-pi

    #Python #RaspberryPi #Electronics #MotorControl #LearningProgramming

  6. By combining a Raspberry Pi with an H-bridge circuit, you can learn practically how to operate a DC motor with PWM control. ✨

    The key point is that you can control the motor's rotation speed and direction by quickly switching the voltage on and off through the GPIO output.

    This is a great way to experience the integration of hardware and software. 💡

    🔥 Top 6 Raspberry Pi eBooks for $20 V2
    ebokify.com/top-6-Raspberry-pi

    #Python #RaspberryPi #Electronics #MotorControl #LearningProgramming

  7. By combining a Raspberry Pi with an H-bridge circuit, you can learn practically how to operate a DC motor with PWM control. ✨

    The key point is that you can control the motor's rotation speed and direction by quickly switching the voltage on and off through the GPIO output.

    This is a great way to experience the integration of hardware and software. 💡

    🔥 Top 6 Raspberry Pi eBooks for $20 V2
    ebokify.com/top-6-Raspberry-pi

    #Python #RaspberryPi #Electronics #MotorControl #LearningProgramming

  8. The Raspberry Pi is equipped with PWM (Pulse Width Modulation) functionality, which, when combined with an H-bridge circuit, allows for flexible control of the rotational speed and direction of a DC motor. ⚙️

    Outputting a PWM signal via GPIO and controlling the motor via an H-bridge is a configuration that can also be used for robotics and automation. 😄

    🔥 Top 6 Raspberry Pi eBooks for $20
    🌐 ebokify.com/top-6-Raspberry-pi-ebooks

    #RaspberryPi #Python #Electronics #MotorControl

  9. 🧠 New preprint by Kashefi et al. (2025): High-density #Neuropixels recordings in monkeys reveal compositional #NeuralDynamics in #MotorCortex. A posture subspace anchors fixed points, rotational dynamics link them to generate movement, and a uniform shift tracks trial state. Recurrent models show this geometry emerges only when controlling a full arm, suggesting posture-dependent control as a core principle:

    🌍 biorxiv.org/content/10.1101/20

    #Neuroscience #MotorControl #CompNeuro

  10. 🧠 New preprint by Kashefi et al. (2025): High-density #Neuropixels recordings in monkeys reveal compositional #NeuralDynamics in #MotorCortex. A posture subspace anchors fixed points, rotational dynamics link them to generate movement, and a uniform shift tracks trial state. Recurrent models show this geometry emerges only when controlling a full arm, suggesting posture-dependent control as a core principle:

    🌍 biorxiv.org/content/10.1101/20

    #Neuroscience #MotorControl #CompNeuro

  11. 🧠 New preprint by Kashefi et al. (2025): High-density #Neuropixels recordings in monkeys reveal compositional #NeuralDynamics in #MotorCortex. A posture subspace anchors fixed points, rotational dynamics link them to generate movement, and a uniform shift tracks trial state. Recurrent models show this geometry emerges only when controlling a full arm, suggesting posture-dependent control as a core principle:

    🌍 biorxiv.org/content/10.1101/20

    #Neuroscience #MotorControl #CompNeuro

  12. 🧠 New preprint by Kashefi et al. (2025): High-density #Neuropixels recordings in monkeys reveal compositional #NeuralDynamics in #MotorCortex. A posture subspace anchors fixed points, rotational dynamics link them to generate movement, and a uniform shift tracks trial state. Recurrent models show this geometry emerges only when controlling a full arm, suggesting posture-dependent control as a core principle:

    🌍 biorxiv.org/content/10.1101/20

    #Neuroscience #MotorControl #CompNeuro

  13. 🧠 New preprint by Kashefi et al. (2025): High-density #Neuropixels recordings in monkeys reveal compositional #NeuralDynamics in #MotorCortex. A posture subspace anchors fixed points, rotational dynamics link them to generate movement, and a uniform shift tracks trial state. Recurrent models show this geometry emerges only when controlling a full arm, suggesting posture-dependent control as a core principle:

    🌍 biorxiv.org/content/10.1101/20

    #Neuroscience #MotorControl #CompNeuro

  14. 🧠 New #preprint by Hosseini et al. (2025) from Graziana Gatto’s lab: #AutoGaitA, a #Python toolbox for universal #kinematic analysis of #motor programs across species, perturbations and #behaviours. Flies, mice and humans all show age-dependent loss of propulsive strength 🚶‍♀️A promising tool 💪 for cross-species motor program analysis in my view:

    🌍 doi.org/10.1101/2024.04.14.589

    #Neuroscience #MotorControl #CompNeuro #OpenSource

  15. 🧠 New #preprint by Hosseini et al. (2025) from Graziana Gatto’s lab: #AutoGaitA, a #Python toolbox for universal #kinematic analysis of #motor programs across species, perturbations and #behaviours. Flies, mice and humans all show age-dependent loss of propulsive strength 🚶‍♀️A promising tool 💪 for cross-species motor program analysis in my view:

    🌍 doi.org/10.1101/2024.04.14.589

    #Neuroscience #MotorControl #CompNeuro #OpenSource

  16. 🧠 New #preprint by Hosseini et al. (2025) from Graziana Gatto’s lab: #AutoGaitA, a #Python toolbox for universal #kinematic analysis of #motor programs across species, perturbations and #behaviours. Flies, mice and humans all show age-dependent loss of propulsive strength 🚶‍♀️A promising tool 💪 for cross-species motor program analysis in my view:

    🌍 doi.org/10.1101/2024.04.14.589

    #Neuroscience #MotorControl #CompNeuro #OpenSource

  17. 🧠 New #preprint by Hosseini et al. (2025) from Graziana Gatto’s lab: #AutoGaitA, a #Python toolbox for universal #kinematic analysis of #motor programs across species, perturbations and #behaviours. Flies, mice and humans all show age-dependent loss of propulsive strength 🚶‍♀️A promising tool 💪 for cross-species motor program analysis in my view:

    🌍 doi.org/10.1101/2024.04.14.589

    #Neuroscience #MotorControl #CompNeuro #OpenSource

  18. 🧠 New #preprint by Hosseini et al. (2025) from Graziana Gatto’s lab: #AutoGaitA, a #Python toolbox for universal #kinematic analysis of #motor programs across species, perturbations and #behaviours. Flies, mice and humans all show age-dependent loss of propulsive strength 🚶‍♀️A promising tool 💪 for cross-species motor program analysis in my view:

    🌍 doi.org/10.1101/2024.04.14.589

    #Neuroscience #MotorControl #CompNeuro #OpenSource

  19. 📣 Now published:

    "Auditory-motor adaptation and de-adaptation for speech depend more on time in the new environment than on the amount of practice"

    nature.com/articles/s44271-025

    #MotorLearning #Adaptation #Speech #Sensorimotor #MotorControl

  20. 📣 Now published:

    "Auditory-motor adaptation and de-adaptation for speech depend more on time in the new environment than on the amount of practice"

    nature.com/articles/s44271-025

    #MotorLearning #Adaptation #Speech #Sensorimotor #MotorControl

  21. 📣 Now published:

    "Auditory-motor adaptation and de-adaptation for speech depend more on time in the new environment than on the amount of practice"

    nature.com/articles/s44271-025

    #MotorLearning #Adaptation #Speech #Sensorimotor #MotorControl

  22. 📣 Now published:

    "Auditory-motor adaptation and de-adaptation for speech depend more on time in the new environment than on the amount of practice"

    nature.com/articles/s44271-025

    #MotorLearning #Adaptation #Speech #Sensorimotor #MotorControl

  23. Hantao Wang will defend his PhD dissertation on Tues 8/19 (10 am PDT), open to all via Zoom!

    "Examining Cortical and Subcortical Processes Underlying Speech Auditory-motor Adaptation and Syllable Sequence Learning"

    washington.zoom.us/j/944913631

    #Speech #MotorControl #Parkinsons #EssentialTremor #DBS #Subcortical #Adaptation

  24. Hantao Wang will defend his PhD dissertation on Tues 8/19 (10 am PDT), open to all via Zoom!

    "Examining Cortical and Subcortical Processes Underlying Speech Auditory-motor Adaptation and Syllable Sequence Learning"

    washington.zoom.us/j/944913631

    #Speech #MotorControl #Parkinsons #EssentialTremor #DBS #Subcortical #Adaptation