Show Navigation
All Galleries
Add to Cart

Touch

63 images Created 6 May 2016

Loading ()...

  • A reseacher at the Touch Lab uses a device to simulate the injection of a fluid in the spinal cord.  The device is outfitted with actuators and braks and gives sensitive feedback to the doctor to what the pressure feels like as the syringe enters the dagerous area around the spinal column.
    scf4374-247_Touch 0014.jpg
  • A reseacher at the Touch Lab uses a device to simulate the injection of a fluid in the spinal cord.  The device is outfitted with actuators and braks and gives sensitive feedback to the doctor to what the pressure feels like as the syringe enters the dagerous area around the spinal column.
    scf4374-250_Touch 0013.jpg
  • Dr. Mandayam Srinivasan, founder of the MIT Touch Lab.
    Touch 0019.jpg
  • Dr. Mandayam Srinivasan, founder of the MIT Touch Lab.
    Touch 0009.jpg
  • Dr. Mandayam Srinivasan, founder of the MIT Touch Lab.
    Touch 0008.jpg
  • Dr. Mandayam Srinivasan, founder of the MIT Touch Lab.
    Touch 0007.jpg
  • Dr. Mandayam Srinivasan, founder of the MIT Touch Lab.
    Touch 0006.jpg
  • James G. Fujimoto, a researcher at MIT University Optics and Quantum Electronics Group, uses a laser to non-invasively scan the subtle layers the lie beneath the layers of the skin with a high degree of resolution.
    Touch 0005.jpg
  • James G. Fujimoto, a researcher at MIT University Optics and Quantum Electronics Group, uses a laser to non-invasively scan the subtle layers the lie beneath the layers of the skin with a high degree of resolution.
    Touch 0005-2.jpg
  • Dr Srinivasan; Mandayam Srinivasan founder of the MIT Touch Lab with a wheel of color chips of various thickness that measures the subjects sensivity to the thickness of various swatches.
    scf4374-241_Touch 0008.jpg
  • Dr. Mathew Botvinick with research assistant performing the rubber hand experiment.  After 10 minutes of observing the rubber hand getting the same brush stroke as their real hand  the subject perceives the rubber hand as their own.
    scf4327-898_Touch 0002.jpg
  • Touch 0026.jpg
  • Touch 0023.jpg
  • Dr. Mathew Botvinick with research assistant performing the rubber hand experiment.  After 10 minutes of observing the rubber hand getting the same brush stroke as their real hand  the subject perceives the rubber hand as their own.
    Touch 0020-2.jpg
  • Touch 0015.jpg
  • Touch 0014.jpg
  • Touch 0011.jpg
  • Touch 0010.jpg
  • Touch 0004.jpg
  • Touch 0032.jpg
  • Touch 0031.jpg
  • Dr. Mathew Botvinick with research assistant performing the rubber hand experiment.  After 10 minutes of observing the rubber hand getting the same brush stroke as their real hand  the subject perceives the rubber hand as their own.
    Touch 0029.jpg
  • Dr. Mathew Botvinick with research assistant performing the rubber hand experiment.  After 10 minutes of observing the rubber hand getting the same brush stroke as their real hand  the subject perceives the rubber hand as their own.
    Touch 0029-2.jpg
  • Touch 0027.jpg
  • Touch 0025.jpg
  • Touch 0024.jpg
  • Touch 0022.jpg
  • Touch 0021.jpg
  • Dr. Mathew Botvinick with research assistant performing the rubber hand experiment.  After 10 minutes of observing the rubber hand getting the same brush stroke as their real hand  the subject perceives the rubber hand as their own.
    Touch 0020.jpg
  • Touch 0018.jpg
  • Touch 0017.jpg
  • Touch 0016.jpg
  • Touch 0013.jpg
  • Touch 0012.jpg
  • Touch 0003.jpg
  • Dr. Mathew Botvinick with research assistant performing the rubber hand experiment.  After 10 minutes of observing the rubber hand getting the same brush stroke as their real hand  the subject perceives the rubber hand as their own.
    Touch 0002.jpg
  • A reseacher at the Touch Lab uses a device to simulate the injection of a fluid in the spinal cord.  The device is outfitted with actuators and braks and gives sensitive feedback to the doctor to what the pressure feels like as the syringe enters the dagerous area around the spinal column.
    scf4374-250.jpg
  • A reseacher at the Touch Lab uses a device to simulate the injection of a fluid in the spinal cord.  The device is outfitted with actuators and braks and gives sensitive feedback to the doctor to what the pressure feels like as the syringe enters the dagerous area around the spinal column.
    scf4374-245.jpg
  • Dr. Mandayam Srinivasan, founder of the MIT Touch Lab with a device that measures the pressure sensitivity of the fingertip.
    scf4374-239.jpg
  • Dr Srinivasan; Mandayam Srinivasan founder of the MIT Touch Lab with a wheel of color chips of various thickness that measures the subjects sensivity to the thickness of various swatches.
    scf4374-242.jpg
  • Dr. Mathew Botvinick with research assistant performing the rubber hand experiment.  After 10 minutes of observing the rubber hand getting the same brush stroke as their real hand  the subject perceives the rubber hand as their own.
    scf4327-898touch 0002.jpg
  • James G. Fujimoto, a researcher at MIT University Optics and Quantum Electronics Group, uses a laser to non-invasively scan the subtle layers the lie beneath the layers of the skin with a high degree of resolution.
    Touch 0001.jpg
  • James G. Fujimoto, a researcher at MIT University Optics and Quantum Electronics Group, uses a laser to non-invasively scan the subtle layers the lie beneath the layers of the skin with a high degree of resolution.
    scf4327-897_Touch 0001.jpg
  • Touch 0030.jpg
  • Touch 0028.jpg
  • MIT Touch Lab Device that Measure Sensitivity of Finger Pad
    scf4374-244_Touch 0011.jpg
  • The human touch finger has upwards of 2000 receptors and this machine enables measurement of tactile perception thresholds.
    scf4374-243_Touch 0010.jpg
  • MIT Touch Lab Device that Measure Sensitivity of Finger Pad.
    scf4374-262_Touch 0031.jpg
  • The human touch finger has upwards of 2000 receptors and this machine enables measurement of tactile perception thresholds.
    scf4374-263_Touch 0032.jpg
  • Dr. Tiffany Field of the Touch Research Institute who through many studies has determined that stimulating Preterm Neonates increased the rate they grrew and were released from the hospital on average 10 earlier than a control group.  The healthcare saving of 470,000 premature births would be a saving she said of some 4.7 billion dollars a year.
    scf4374-257_Touch 0025.jpg
  • Dr. Tiffany Field of the Touch Research Institute who through many studies has determined that stimulating Preterm Neonates increased the rate they grrew and were released from the hospital on average 10 earlier than a control group.  The healthcare saving of 470,000 premature births would be a saving she said of some 4.7 billion dollars a year.
    scf4374-256_Touch 0024.jpg
  • Dr. Tiffany Field of the Touch Research Institute who through many studies has determined that stimulating Preterm Neonates increased the rate they grrew and were released from the hospital on average 10 earlier than a control group.  The healthcare saving of 470,000 premature births would be a saving she said of some 4.7 billion dollars a year.
    scf4374-248_Touch 0015.jpg
  • The human touch finger has upwards of 2000 receptors and this machine enables measurement of tactile perception thresholds.
    scf4374-238_Touch 0004.jpg
  • Suiren Wan conducts laparoscopy surgery at The Touch Lab at MIT Laboratory for Human and Machine Haptics.
    scf4374-237_Touch 0003.jpg
  • scf4374-254_Touch 0022.jpg
  • scf4374-253_Touch 0021.jpg
  • Park 51 Hotel Room Service includes a different kind of touch as white gloves are delivered with the morning newspaper so ink does not smear on the guest's hands.
    fct4383-867_New York 0044 Park 51 Ho...jpg
  • Suiren Wan conducts laparoscopy surgery at The Touch Lab at MIT Laboratory for Human and Machine Haptics.
    scf4374-251.jpg
  • Dr. Tiffany Field of the Touch Research Institute who through many studies has determined that stimulating Preterm Neonates increased the rate they grrew and were released from the hospital on average 10 earlier than a control group.  The healthcare saving of 470,000 premature births would be a saving she said of some 4.7 billion dollars a year.
    scf4374-259.jpg
  • Park 51 Hotel Room Service includes a different kind of touch as white gloves are delivered with the morning newspaper so ink does not smear on the guest's hands.
    New York 0044 Park 51 Hotel.jpg
  • Dr. Tiffany Field of the Touch Research Institute who through many studies has determined that stimulating Preterm Neonates increased the rate they grrew and were released from the hospital on average 10 earlier than a control group.  The healthcare saving of 470,000 premature births would be a saving she said of some 4.7 billion dollars a year.
    scf4374-258.jpg
  • Message therapist, Elizabeth Palomino of the Touch Research Institute uses message during pregnancy reducing anxiety, impoving modd, better sleep and less pack pain.
    scf4374-249.jpg
  • Message therapist, Elizabeth Palomino of the Touch Research Institute teaches Jose R. Ortiz, how to reduces stress with message during pregnancy reducing anxiety, impoving modd, better sleep and less pack pain.  Jaqueline Orellanes is pregnant with his baby.
    scf4374-260.jpg
View: 100 | All
  • Facebook
  • Twitter
x

Louie Psihoyos Photography

  • Search
  • Archives
    • All Galleries
    • Search
    • Cart
    • Lightbox
    • Client Area
  • Shopping Cart
  • Portfolio
  • About Louie
  • Stories
  • Contact
  • Login