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  • Spread across a backlit surface like a Kandinsky painting, the disassembled Kismet head reveals the mechanisms (an updated second-generation version with a neck that "cranes") that allow it to manipulate its cartoonish lips, eyes, and ears into expressions that seem startlingly human. This next generation Kismet head is called K2. Chris Morse spent two hours taking it apart for us. Cynthia Breazeal developed Kismet at MIT in Cambridge, MA. From the book Robo sapiens: Evolution of a New Species, page  67.
    USA_rs_425_qxxs.jpg
  • A teenage girl with bright orange hair at Harajuku.  Tokyo, Japan.
    Japan_JAP_05_xs.jpg
  • JAP_03_xs.A teenage girl with yellow spiked hair and white face at Harajuku.  Tokyo, Japan. .
    Japan_JAP_03_xs.jpg
  • Luang Prabang, Laos. Evening chanting by monks and novices at the Buddhist Temple, Wat Pak Khan.
    LAO_120120_037_x.jpg
  • Folsom Street Fair, San Francisco, CA annual event.
    USA_100926_75_x.jpg
  • Folsom Street Fair, San Francisco, CA annual event.
    USA_100926_24_x.jpg
  • Folsom Street Fair, San Francisco, CA annual event.
    USA_100926_17_x.jpg
  • Shepherd's Dell State Park near Portland, OR
    USA_121115_02_x.jpg
  • Tierra Santa religious theme park, Buenos Aires
    ARG_110108_119_x.jpg
  • Luang Prabang, Laos. Evening chanting by monks and novices at the Buddhist Temple, Wat Pak Khan.
    LAO_120120_036_x.jpg
  • Harajuku district Elvis dance troop members. Tokyo, Japan.
    Japan_JAP_30_xs.jpg
  • A family of musicians performing for tips in Jodhpur, Rajasthan, India.
    IND_043_xs.jpg
  • Peter Menzel's first reaction to eating a live jumil, or flying stink bug (Euchistus taxcoensis), at the Jumil Festival. The insect attempted to escape from his mouth. It tasted "like an aspirin saturated in cod liver oil with dangerous sub-currents of rubbing alcohol and iodine." Taxco, Mexico. (Man Eating Bugs page 15)
    MEX_meb_244_cxxs.jpg
  • Kevin Kelly, in his home office in Pacifica, California.<br />
Senior Maverick for Wired.    <br />
Author of What Technology Wants.
    USA_100418_232_x.jpg
  • Tierra Santa religious theme park, Buenos Aires
    ARG_110108_144_x.jpg
  • Tierra Santa religious theme park, Buenos Aires
    ARG_110108_098_x.jpg
  • Wedged into her small, cluttered workspace in the MIT Artificial Intelligence Laboratory in Cambridge, MA., researcher Cynthia Breazeal holds a mirror to Kismet, the robot head she has been working on for two years. The cameras behind Kismet's big blue eyes send data to its computer, which has software allowing the robot to detect people and bright toys visually. In addition, the software recognizes people by vocal affect. Then, following its programming, it reacts, twisting its features in a comically exaggerated display of emotion. From the book Robo sapiens: Evolution of a New Species, page 66.
    USA_rs_124_qxxs.jpg
  • Ft. Ross, near Timber Cove, N. Caliornia Coast
    USA_100803_098_x.jpg
  • Godfrey Reggio (born 1940), creator of the QATSI trilogy, essays of visual images and sound which chronicle the destructive impact of the modern world on the environment. In his Santa Fe studio. His most famous movie of the trilogy is Koyaanisqatsi. MODEL RELEASED. (1990).
    USA_NM_13_xs.jpg
  • Eyes sweeping the room with what seems to be hopeful curiosity, Kismet the robot sits like an animated bust on Cynthia Breazeal's desk at MIT in Cambridge, MA. When it spots visitors, the robot's expression changes to an almost uncannily convincing expression of interest and delight. From the book Robo sapiens: Evolution of a New Species. One of a series of Kismet images.
    USA_rs_42_nxxs.jpg
  • Eyes sweeping the room with what seems to be hopeful curiosity, Kismet the robot sits like an animated bust on Cynthia Breazeal's desk at MIT in Cambridge, MA. When it spots visitors, the robot's expression changes to an almost uncannily convincing expression of interest and delight. From the book Robo sapiens: Evolution of a New Species. One of a series of Kismet images.
    USA_rs_44_qxxs.jpg
  • Eyes sweeping the room with what seems to be hopeful curiosity, Kismet the robot sits like an animated bust on Cynthia Breazeal's desk at MIT in Cambridge, MA. When it spots visitors, the robot's expression changes to an almost uncannily convincing expression of interest and delight. From the book Robo sapiens: Evolution of a New Species. One of a series of Kismet images.
    USA_rs_41_qxxs.jpg
  • Eyes sweeping the room with what seems to be hopeful curiosity, Kismet the robot sits like an animated bust on Cynthia Breazeal's desk at MIT in Cambridge, MA. When it spots visitors, the robot's expression changes to an almost uncannily convincing expression of interest and delight. From the book Robo sapiens: Evolution of a New Species. One of a series of Kismet images.
    USA_rs_39_qxxs.jpg
  • Eyes sweeping the room with what seems to be hopeful curiosity, Kismet the robot sits like an animated bust on Cynthia Breazeal's desk at MIT in Cambridge, MA. When it spots visitors, the robot's expression changes to an almost uncannily convincing expression of interest and delight. From the book Robo sapiens: Evolution of a New Species. One of a series of Kismet images.
    USA_rs_38_qxxs.jpg
  • Eyes sweeping the room with what seems to be hopeful curiosity, Kismet the robot sits like an animated bust on Cynthia Breazeal's desk at MIT in Cambridge, MA. When it spots visitors, the robot's expression changes to an almost uncannily convincing expression of interest and delight. From the book Robo sapiens: Evolution of a New Species. One of a series of Kismet images.
    USA_rs_37_nxs.jpg
  • Eyes sweeping the room with what seems to be hopeful curiosity, Kismet the robot sits like an animated bust on Cynthia Breazeal's desk at MIT in Cambridge, MA. When it spots visitors, the robot's expression changes to an almost uncannily convincing expression of interest and delight. From the book Robo sapiens: Evolution of a New Species. One of a series of Kismet images.
    USA_rs_43_qxxs.jpg
  • Eyes sweeping the room with what seems to be hopeful curiosity, Kismet the robot sits like an animated bust on Cynthia Breazeal's desk at MIT in Cambridge, MA. When it spots visitors, the robot's expression changes to an almost uncannily convincing expression of interest and delight. From the book Robo sapiens: Evolution of a New Species. One of a series of Kismet images.
    USA_rs_40_qxxs.jpg
  • Eyes sweeping the room with what seems to be hopeful curiosity, Kismet the robot sits like an animated bust on Cynthia Breazeal's desk at MIT in Cambridge, MA. When it spots visitors, the robot's expression changes to an almost uncannily convincing expression of interest and delight. From the book Robo sapiens: Evolution of a New Species. One of a series of Kismet images.
    USA_rs_36_qxxs.jpg
  • Kismet is a complex autonomous robot developed by Dr. Cynthia Breazeal, at the time of this image a doctoral studies student at the MIT Artificial Intelligence Lab under the direction of Rod Brooks. Breazeal's immediate goal for Kismet is to replicate and possibly recognize human emotional states as exhibited in facial expressions. Breazeal has located the most important variables in human facial expressions and has mechanically transferred these points of expression to a robotic face. Kismet's eyelids, eyebrows, ears, mouth, and lips are all able to move independently to generate different expressions of emotional states.
    Usa_rs_711_xs.jpg
  • MODEL RELEASED. Kismet robot interacting with a mirror held by researcher Cynthia Breazeal. Kismet is a robot that responds with facial expressions to her actions. It has been developed for the study of action recognition and learning, particularly in children. Kismet has several moods, which it displays as expressions on its face. It responds to visual stimuli like a baby. When there are no stimuli, it shows a sad expression. When paid attention to, as here, Kismet looks interested. Like a child, Kismet responds best to bright colours and moderate movements. Photographed at Massachusetts Institute of Technology (MIT), Cambridge, USA.
    Usa_rs_565_xxs.jpg
  • Student Yousuke Kato points to a female face robot created at the Science University of Tokyo, Japan, Fumio Hara Robotics Lab. The female face robot (secondgeneration) has shape-memory electric actuators that move beneath the robots' silicon skin to change the face into different facial expressions much as muscles do in the human face. The research robot undergoes a metamorphosis with each class of students assigned to work on it. The latest iteration allows the robot's face to mold into six different expressions: happiness, sadness, fear, disgust, anger, and surprise. In some images, the computer monitor displays a graphical representation of the software creating the expression on the robot.
    Japan_Jap_rs_707_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
  • The ghoulish host for Secrets of the Crypt Keeper's Haunted House, a Saturday-morning television show for kids, is an animatronic; that is, lifelike electronic-robot. Built by AVG, of Chatsworth, California, the Crypt Keeper can show almost every human expression, although it must first be programmed to do so. Larger gestures of head and hand are created not by programming, but by electronically linking the robotic figure to an actor. From the book Robo sapiens: Evolution of a New Species, page 207.
    USA_rs_376_qxxs.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
  • The ghoulish host for Secrets of the Crypt Keeper's Haunted House, a Saturday-morning television show for kids, is an animatronic; that is, lifelike electronic-robot. Built by AVG, of Chatsworth, California, the Crypt Keeper can show almost every human expression, although it must first be programmed to do so. Larger gestures of head and hand are created not by programming, but by electronically linking the robotic figure to an actor. From the book Robo sapiens: Evolution of a New Species, page 206.
    USA_rs_375_qxxs.jpg
  • Black Rock Desert, Nevada.One of the many futuristic art-themed camps at dusk at the Burning Man Festival burn. Burning Man is the art, drugs and sex festival based on radical self-expression and creative community held annually in the Black Rock Desert near Gerlach, Nevada, USA.
    USA_BMAN_01_xs.jpg
  • An art car at Burning Man, an event dedicated toward creating an atmosphere of community, self-expression, and celebration held yearly on Nevada's Black Rock Desert. Burning Man is a performance art festival known for art, drugs and sex. It takes place annually in the Black Rock Desert near Gerlach, Nevada, USA.
    USA_BMAN_204_xs.jpg
  • Lightning detection and aviation. View of the Federal Express (FedEx) air traffic control tower at Memphis Airport, USA. Overlaid on this is a frame from the National Lightning Detection Network computer, showing the distribution of lightning strikes (green dots) across the USA. FedEx controllers use this information in planning the most efficient routes possible for their aircraft. FedEx specialize in transporting express parcels and documents, and have their main operating hub at Memphis. 1992.
    USA_SCI_LIG_42_xs.jpg
  • Students in the laboratory of Professor Fumio Hara and Hiroshi Kobayashi at Science University of Tokyo work on their various robot projects, including the labs' first generation face robot. This three-dimensional human-like animated pneumatic face robot can recognize human facial expressions as well as produce realistic facial expressions in real time. The animated face robot, covered in latex "skin" is equipped with a CCD camera in the left eye and is able to collect facial image data that is used for on-line recognition of human facial expressions.
    Japan_Jap_rs_263_xs.jpg
  • Professor Fumio Hara of the Hara and Kobayashi Lab at Science University of Tokyo with his lab's first-generation robot head, without its skin. This three-dimensional human-like animated pneumatic face robot can recognize human facial expressions as well as produce realistic facial expressions in real time. The animated face robot, covered in latex "skin" is equipped with a CCD camera in the left eye and is able to collect facial image data that is used for on-line recognition of human facial expressions. (Draped in white veil by photographer.)
    Japan_Jap_rs_199_xs.jpg
  • After he removes its skin, Fumio Hara gets the once-over from a face robot in the lab he co-directs with Hiroshi Kobayashi at the Science University of Tokyo, Japan. The first of several face robots made in his lab, it has a CCD camera in its left eye that sends images to neural-network software that recognizes faces and their expressions. Calling upon its repertoire of programmed reactions, it activates the motors and pulleys beneath its flexible skin to produce facial expressions of its own. The project is relatively unusual in its focus, many researchers believe that making robots walk and manipulate objects is so difficult that facial expressions are not yet worth working on. Hara disagrees, arguing that robots with animated faces will communicate with humans much more easily. From the book Robo sapiens: Evolution of a New Species, page 74-75.
    Japan_JAP_rs_4_qxxs.jpg
  • Fried bamboo larva on a banana leaf with tomato roses, scalloped cucumbers and spring onions. In Thai the larvae are called rot duan, "express train," because they resemble tiny trains. They taste "like salty crispy shrimp puffs" says Peter Menzel. In the Kan Ron Ban Suan Restaurant, Chiang Mai, Thailand. (Man Eating Bugs: The Art and Science of Eating Insects)
    Tha_meb_2_xs.jpg
  • A culinary and aesthetic exhibition (on a banana leaf with tomato roses, scalloped cucumbers and spring onions) of fried bamboo worms, which are actually not worms but the larval stage of a moth that lives in bamboo trees. In Thai the larvae are called rot duan, "express train," because they resemble tiny trains. They taste "like salty crispy shrimp puffs," Peter Menzel. In the Kan Ron Ban Suan Restaurant, Chiang Mai, Thailand. (Man Eating Bugs page s 42,43)
    THA_meb_34A_cxxs.jpg
  • Human Genome Project: Charles R. Cantor and Cassandra Smith, American biologists, photographed in a laboratory at Columbia University, New York, in May 1989. Cantor's area of research is human genetics. With colleagues at Columbia, he has contributed to work on the human genome project, an ambitious plant to construct a complete biochemical document detailing every gene expressed on each of the 23 pairs of human chromosomes. Smith's area of research is human genetics. With colleagues at Columbia, she has contributed to work on the human genome project, an ambitious plant to construct a complete biochemical document detailing every gene expressed on each of the 23 pairs of human chromosomes. MODEL RELEASED.
    USA_SCI_HGP_28_xs.jpg
  • The inner workings of the first generation face robot from the Hara-Kobayashi Lab in Tokyo, Japan. The first of several face robots made in Fumio Hara's lab, it has a CCD camera in its left eye that sends images to neural-network software that recognizes faces and their expressions. Calling upon its repertoire of programmed reactions, it activates the motors and pulleys beneath its flexible skin to produce facial expressions of its own. From the book Robo sapiens: Evolution of a New Species, page 4.
    Japan_JAP_rs_5A_120_qxxs.jpg
  • Kismet is a complex autonomous, stationary robot developed by Dr. Cynthia Breazeal, at the time of this image a doctoral studies student at the MIT Artificial Intelligence Lab under the direction of Rod Brooks. Breazeal's immediate goal for Kismet is to replicate and possibly recognize human emotional states as exhibited in facial expressions. Kismet's eyelids, eyebrows, ears, mouth, and lips are all able to move independently to generate different expressions of emotional states. In this photograph, Cynthia poses with Kismet and "King Louie", a toy often used to stimulate the robot.
    Usa_rs_165_120_xs.jpg
  • Circular computer scanner used to read sections of DNA sequencing autoradiograms for subsequent computer analysis, part of the human genome project studies at Cal Tech, Lee Hood Lab, USA. The term genome describes the full set of genes expressed by an organism's chromosomes. A gene is a section of DNA that instructs a cell to make a specific protein. The task of constructing such a complete blueprint of genetic information for humans is divided into two main phases: mapping genes and other markers on chromosomes, and decoding the DNA sequences of genes on all the chromosomes. Numerous laboratories worldwide are engaged on various aspects of genome research.
    USA_SCI_HGP_29_xs.jpg
  • A work in progress, this still-unnamed face robot can open its eyes and smile. In the future, says its designer, Hidetoshi Akasawa, a mechanical engineering student working on a master's at the Science University of Tokyo, Japan,  it will be able to recognize and react to human facial expressions. This third-generation robot will greet smiles with smiles, frowns with frowns, mixing and matching six basic emotions in a real-time interaction that Hara calls "active human interface."
    Japan_JAP_rs_377_xs.jpg
  • Research on the human genome: laboratory at Columbia University, Lee Hood Lab, New York, showing row of electrophoresis gels used for DNA sequencing experiments on human chromosomes. DNA sequencing involves decoding the base pair sequence of sections of DNA - most usefully, those sections called genes which encode specific proteins. Sequencing and mapping - surveying each of the 23 pairs of human chromosomes to locate genes or other important markers - are two phases in the human genome project. Constructing such a complete genetic map involves a detailed biochemical survey of every gene expressed on all 23 pairs of human chromosomes.
    USA_SCI_HGP_33_xs.jpg
  • Circular computer scanner used to read sections of DNA sequencing autoradiograms for subsequent computer analysis, part of the human genome project studies at Cal Tech, Lee Hood Lab, USA. The term genome describes the full set of genes expressed by an organism's chromosomes. A gene is a section of DNA that instructs a cell to make a specific protein. The task of constructing such a complete blueprint of genetic information for humans is divided into two main phases: mapping genes and other markers on chromosomes, and decoding the DNA sequences of genes on all the chromosomes. Numerous laboratories worldwide are engaged on various aspects of genome research.
    USA_SCI_HGP_30_xs.jpg
  • Human Genome Project: Columbia University. Charles R. Cantor. Charles Cantor, American biologist, photographed in a laboratory at Columbia University, New York, in May 1989. Cantor's area of research is human genetics. With colleagues at Columbia, he has contributed to work on the human genome project, an ambitious plant to construct a complete biochemical document detailing every gene expressed on each of the 23 pairs of human chromosomes. MODEL RELEASED (1989).
    USA_SCI_HGP_27_xs.jpg
  • Harvard scientist Walter Gilbert studying a DNA sequencing autoradiogram, made in the course of research associated with the human genome project. The term genome describes the full set of genes expressed by an organism's chromosomes. A gene is a section of DNA that instructs a cell to make a specific protein. The task of constructing such a complete blueprint of genetic information for humans is divided into two main phases: mapping genes and other markers on chromosomes, and decoding the DNA sequences of genes on all the chromosomes. Numerous laboratories worldwide are engaged on various aspects of genome research. MODEL RELEASED.
    USA_SCI_HGP_26_xs.jpg
  • Human Genome Project: Dr Jonathan Beckwith, American biologist, examining through a magnifying glass, a Petri dish containing a genetically- engineered colony of the bacteria, Escherichia coli, in his laboratory at Harvard Medical School. As a respected scientist working with genetic engineering technology, Beckwith is concerned about the social & legal implications of human genetic screening, an option that might arise from the successful completion of the human genome project - an ambitious plan to make a complete biochemical survey of every gene expressed on all the 23 pairs of human chromosomes. MODEL RELEASED (1989).
    USA_SCI_HGP_22_xs.jpg
  • Human Genome Project: Dr Jonathan Beckwith, American biologist. As a respected scientist working with genetic engineering technology, Beckwith is concerned about the social & legal implications of human genetic screening, an option that might arise from the successful completion of the human genome project - an ambitious plan to make a complete biochemical survey of every gene expressed on all the 23 pairs of human chromosomes. MODEL RELEASED (1989).
    USA_SCI_HGP_21_xs.jpg
  • Conical flask containing a swirling vortex of liquid; one item of equipment used in Charles Cantor's laboratory at Columbia University, New York, in research on the human genome project. Colored radiograms used in DNA sequencing are visible in background to the left of the flask. The term "genome" describes the full set of genes expressed by an organism's chromosomes. The task of constructing such a complete blueprint of genetic information for humans is divided into two main phases: mapping genes and other markers on chromosomes, and decoding the DNA sequences of genes on all the chromosomes.
    USA_SCI_HGP_20_xs.jpg
  • Research on the human genome: composite image of an infant and a computer graphics model of the DNA molecule overlaid on a computer enhanced DNA sequencing autoradiogram. DNA sequencing of chromosomes involves decoding the base pair sequence of sections of DNA - most usefully, those sections called genes which encode specific proteins. Sequencing and mapping - surveying each of the 23 pairs of human chromosomes to locate genes or other important markers - are two phases in the human genome project. The construction of such a complete genetic map involves a detailed biochemical survey of every gene expressed on all 23 pairs of human chromosomes.  (1989).
    USA_SCI_HGP_17_xs.jpg
  • Research on the human genome: composite image of an infant and a computer graphics model of the DNA molecule overlaid on a computer enhanced DNA sequencing autoradiogram. DNA sequencing of chromosomes involves decoding the base pair sequence of sections of DNA - most usefully, those sections called genes which encode specific proteins. Sequencing and mapping - surveying each of the 23 pairs of human chromosomes to locate genes or other important markers - are two phases in the human genome project. The construction of such a complete genetic map involves a detailed biochemical survey of every gene expressed on all 23 pairs of human chromosomes. (1989).
    USA_SCI_HGP_16_xs.jpg
  • Human Genome Project: Columbia University. Charles Cantor, American biologist, photographed in a laboratory at Columbia University, New York, in May 1989. Cantor's area of research is human genetics. With colleagues at Columbia, he has contributed to work on the human genome project, an ambitious plant to construct a complete biochemical document detailing every gene expressed on each of the 23 pairs of human chromosomes. MODEL RELEASED (1989).
    USA_SCI_HGP_10_xs.jpg
  • Human Genome Project: Dr Jonathan Beckwith, American biologist, examining through a magnifying glass, a Petri dish containing a genetically- engineered colony of the bacteria, Escherichia coli, (not in photo) in his laboratory at Harvard Medical School. As a respected scientist working with genetic engineering technology, Beckwith is concerned about the social & legal implications of human genetic screening, an option that might arise from the successful completion of the human genome project - an ambitious plan to make a complete biochemical survey of every gene expressed on all the 23 pairs of human chromosomes. MODEL RELEASED (1989)
    USA_SCI_HGP_05_xs.jpg
  • Shelves stacked with My Real Baby in the development labs at the Somerville, Massachusetts firm iRobot. The doll is a collaboration between iRobot and toy giant Hasbro. My Real Baby has a complex innerworkings benteath its soft skin including gears, servos, and an 8-bit processor, all to give the robotic doll a host of expressions and movement.
    Usa_rs_701_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
  • Lit from within to reveal the machinery beneath its skin, this second-generation face robot from the Hara-Kobayashi laboratory at the Science University of Tokyo, Japan, has shape-memory actuators that move like muscles creating facial expressions beneath the robot's silicon skin. Made of metal strips that change their shape when an electric current passes through them, the actuators return to their original form when the current stops. The robot head is lit from within by a pencil light strobe cloaked in a yellow gel.From the book Robo sapiens: Evolution of a New Species, page 77.
    Japan_JAP_rs_1B_120_qxxs.jpg
  • Research on the human genome: Caltech scientist Kai Wand loading an electrophoresis gel into a computer-controlled system used for DNA sequencing of human chromosomes. DNA sequencing involves decoding the base pair sequence of sections of DNA encode specific proteins. Sequencing and mapping chromosomes to locate genes or other important markers - are two phases in the human genome project. The human genome is a complete genetic blueprint - a detailed plan of every gene expressed in all 23 pairs of human chromosomes. MODEL RELEASED (1989).
    USA_SCI_HGP_14_xs.jpg
  • Research on the human genome: Caltech scientist Leroy Hood preparing an electrophoresis gel used in a computer-controlled system for DNA sequencing of human chromosomes. DNA sequencing involves decoding the base pair sequence of sections of DNA encode specific proteins. Sequencing and mapping chromosomes to locate genes or other important markers - are two phases in the human genome project. The human genome is a complete genetic blueprint - a detailed plan of every gene expressed on all 23 pairs of chromosomes. MODEL RELEASED (1989).
    USA_SCI_HGP_08_xs.jpg
  • Walter Gilbert, Harvard University Nobel laureate scientist, appears next to a computer graphics representation of the DNA molecule in this double- exposure photograph. Gilbert is a leading proponent of the human genome project, an ambitious plan to build a complete, detailed biochemical document of every gene expressed on each of the 23 pairs of human chromosomes. MODEL RELEASED May 1989..Human Genome Project.
    USA_SCI_HGP_04_xs.jpg
  • A work in progress, this still-unnamed face robot can open its eyes and smile. In the future, says its designer, Hidetoshi Akasawa, a mechanical engineering student working on a master's at the Science University of Tokyo, Japan,  it will be able to recognize and react to human facial expressions. This third-generation robot will greet smiles with smiles, frowns with frowns, mixing and matching six basic emotions in a real-time interaction that Hara calls "active human interface." From the book Robo sapiens: Evolution of a New Species, page 72.
    Japan_JAP_rs_262_qxxs.jpg
  • Professor Fumio Hara and Assistant Professor Hiroshi Kobayashi's female face robot (second-generation) at Science University of Tokyo, Japan, has shape-memory electric actuators that move beneath the robot's silicon skin to change the face into different facial expressions much as muscles do in the human face. The actuators are very slow to return to their original state and remedying this is one of the research projects facing the Hara and Kobayashi Lab. The robot head is lit from within by a pencil light strobe cloaked in a yellow gel. It was photographed in the neon bill-boarded area of Shinjuku, a section of Tokyo, on a rainy evening at rush hour. Robo sapiens cover image. From the book Robo sapiens: Evolution of a New Species.
    Japan_JAP_rs_1_qxxs.jpg
  • Human Genome Project: Columbia University. Charles Cantor, American biologist, photographed in a laboratory at Columbia University, New York, in May 1989. Cantor's area of research is human genetics. With colleagues at Columbia, he has contributed to work on the human genome project, an ambitious plant to construct a complete biochemical document detailing every gene expressed on each of the 23 pairs of human chromosomes. MODEL RELEASED (1989).
    USA_SCI_HGP_09_xs.jpg

Peter Menzel Photography

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