Show Navigation

Search Results

Refine Search
Match all words
Match any word
Prints
Personal Use
Royalty-Free
Rights-Managed
(leave unchecked to
search all images)
{ 6 images found }

Loading ()...

  • Little Mermaid statue at harbor entrance. Copenhagen, Denmark.
    DEN_14_xs.jpg
  • Practical astronomy. A logbook and calculator used by a crewmember of the Kuiper Airborne Observatory (KAO). The logbook details the times at, which liquid helium and nitrogen were added to the cryogenic system of the KAO's far-infrared telescope. At right is a chart used to plan observations with an infrared polarimeter fitted to the telescope. The calculator, a programmable type, may be used for work on preliminary data. NASA Kuiper Airborne Observatory: Astronomy from the stratosphere. NASA AMES Research Center at Moffett Field, Mountain View, California. Data gathered during a mission to be analyzed.
    USA_SCI_NASA_17_xs.jpg
  • Robot baby doll. Robot baby doll with part of its "skin" removed to show its inner workings. This toy, known as BIT (Baby IT), is a prototype of the My Real Baby interactive baby doll developed by IRobot Corporation and Hasbro Corporation. The BIT doll mimics the facial expression of a human baby by changing the contours on its lifelike rubber face. The BIT baby doll was developed by IS Robotics, Somerville, Massachusetts, USA. 
    Usa_rs_6a_120_xs.jpg
  • Baby It's skin partially removed to reveal its inner workings, this prototype robot baby can mimic the facial expressions of a human infant by changing the contours of its lifelike rubber face. Called BIT, for Baby IT, the mechanical tot is yet more proof that much robotic research will see its first commercial application in the toy and entertainment industry. My Real Baby, the market version of BIT, is scheduled to debut in US stores in late 2000; it is a collaboration between Hasbro, the US toy giant, and iRobot, a small company started by MIT researcher Rodney Brooks.  Somerville, MA. From the book Robo sapiens: Evolution of a New Species, page 229.
    USA_rs_72_qxxs.jpg
  • First generation face robot from the Hara-Kobayashi Lab in Tokyo. Lit from behind to reveal the machinery beneath the skin. The machinery will change the contours of the robot's skin to create facial expressions. It does this by using electric actuators, which change their shape when an electric current is passed through them. The devices will return to their original shape when the current stops. This robot face was developed at the Laboratory of Fumio Hara and Hiroshi Kobayashi at the Science University, Tokyo, Japan.
    Japan_Jap_rs_2A_120_xs.jpg
  • First generation face robot from the Hara-Kobayashi Lab in Tokyo. Lit from behind to reveal the machinery beneath the skin. The machinery will change the contours of the robot's skin to create facial expressions. It does this by using electric actuators, which change their shape when an electric current is passed through them. The devices will return to their original shape when the current stops. Unfortunately these actuators proved very slow at returning to their original shape, causing an expression to remain on the face for too long. This robot face was developed at the Laboratory of Fumio Hara and Hiroshi Kobayashi at the Science University, Tokyo, Japan. The robot head is lit from within by a pencil light strobe cloaked in a yellow gel.
    Japan_Jap_rs_1a_120_xs.jpg

Peter Menzel Photography

  • Home
  • Legal & Copyright
  • About Us
  • Image Archive
  • Search the Archive
  • Exhibit List
  • Lecture List
  • Agencies
  • Contact Us: Licensing & Inquiries