the android reality
By Henryk Szubinski
universally you can distribute value on any translatability of the protocol failure to not be here:
androids however have some basic laws that function by distributed power of the daily logs into their memory:
for 1 the data goes in on the basic level where the compounded values are basically retrospectual a.i. in cases where the a.i visuals are out of ordre the values of a order to get a new pair in is as basic as the formats by which the system and its general value in responsive basic non disruptive functioning is as free as the generalisations about the positronic brain. Data need to have a format of the greatest generalisations in ordre to define and construct the posi value human responses of the data day in a a.i bit processor as such = to a general data format of its processess and the ability to concern itself with the basics of a based = 1 data duration. On other sides the spectral anatomy of the friend or foe as the basics in whcih the data on the definitions of processors has similarity and general usage = wear .
As such the compu mobile android needs the accertions of a 5th freedoom of knowledge basis in which it can respond that it has aquired the 5th framework .
as a format for a very simple anatomical model for android adaptations:
Tarsiers are small animals with enormous eyes; each eyeball is approximately 16 mm in diameter and is as large as their entire brain.[5] Tarsiers also have very long hind limbs. In fact, their feet have extremely elongated tarsus bones, from which the animals get their name. The head and body range from 10 to 15 cm in length, but the hind limbs are about twice this long (including the feet), and they also have a slender tail from 20 to 25 cm long. Their fingers are also elongated, with the third finger being about the same length as the upper arm. Most of the digits have nails, but the second and third toes of the hind feet bear claws instead, which are used for grooming. Tarsiers have very soft, velvety fur, which is generally buff, beige, or ochre in color.[6]
Unlike other prosimians, tarsiers have no toothcomb, and their dental formula is also unique:
Asimov remained vague about the technical details except to assert that the brain’s substructure was formed from an alloy of platinum and iridium. The focus of Asimov’s stories was directed more towards the software of robots (such as the Three Laws of Robotics) than the hardware in which it was implemented.
Within his stories of robotics on Earth and their development by U.S. Robots, Asimov’s positronic brain became less of a plot device, and more of a technological item worthy of study.
A positronic brain cannot ordinarily be built without incorporating the Three Laws; any modification thereof would drastically modify robot behavior. Behavioral dilemmas resulting from conflicting potentials set by inexperienced and/or malicious users of the robot for the Three Laws make up the bulk of Asimov’s stories concerning robots. They are resolved by applying the science of logic and psychology together with mathematics, the supreme solution finder being Dr. Susan Calvin, Chief Robopsychologist of U.S. Robots.
The Three Laws are also a bottleneck in terms of brain sophistication. Very complex brains designed to handle world economy have to have a First Law expanded to include humanity as opposed to a single human; in Asimov’s later works like Robots and Empire this is referred to as the “Zeroth Law”. Brains which are constructed as calculating machines as opposed to being robot control circuits are designed to have a flexible, child-like personality so that they are able to pursue difficult problems without the Three Laws inhibiting them completely.
this ttype cardiac measurement bio fysical compagnion etc..
Aging is an accumulation of damage to macromolecules, cells, tissues and organs. If any of that damage can be repaired, the result is rejuvenation.
There have been many experiments which have been shown to increase the maximum life span of laboratory animals, thereby achieving life extension. A few experimental methods such as replacing hormones to youthful levels have had considerable success in partially rejuvenating laboratory animals and humans. There are at least eight important hormones that decline with age: 1. human growth hormone (HGH); 2. the sexual hormones: testosterone or estrogen/progesterone; 3. erithropoietin (EPO); 4. insulin; 5. DHEA; 6. melatonin; 7. thyroid; 8. pregnenolone. In theory, if all or some of these hormones are replaced, the body will respond to them as it did when it was younger, thus repairing and restoring many body functions.
Most attempts at genetic repair have traditionally involved the use of a retrovirus to insert a new gene into a random position on a chromosome. But by attaching zinc fingers (which determine where transcription factors bind) to endonucleases (which break DNA strands) homologous recombination can be induced to correct and replace defective (or undesired) DNA sequences. The first applications of this technology are to isolate stem cells from the bone marrow of patients having blood disease mutations, to correct those mutations in laboratory dishes using zinc finger endonucleases and to transplant the stem cells back into the patients [5].
Regenerative medicine uses three different strategies:
- Implantation of stem cells from culture into an existing tissue structure
- Implantation of stem cells into a tissue scaffold that guides restoration or
- Induction of residual cells of a tissue structure to regenerate the necessary body part.