25/07/2019
THE MULTIDIMENSIONAL T-REX ROBOT: KING
POWERED BY Artificial Intelligence 2.0
(OPTIMIZED FOR ADVANCED OBJECT DETECTION AND RECOGNITION)
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FEATURING KING 👑 CROWN TECHNOLOGY:
CAMERAS INVOLVED (EYES):
• INFRA RED
• NIGHT VISION
• RED COLOR CHANNEL ONLY
• GREEN COLOR CHANNEL ONLY
• BLUE COLOR CHANNEL ONLY
• ZOOM LENSES (VARIABLE FOCAL LENGTH) WITH AN ELECTRONIC FOLLOW FOCUS TYPE SYSTEM (VARIABLE FOCAL LENGTH).
• POSSIBLY STANDARD LENSES AS WELL (FIXED FOCAL LENGTH).
• 360 CAMERA
• VARIOUS OTHER CAMERAS WITH SENSORS/PHOTOCHEMICALS/MEANS OF DETECTING THE VARIOUS KINDS OF WAVES BELONGING TO THE ELECTROMAGNETIC SPECTRUM. OTHER THAN VISIBLE LIGHT THESE WAVES ARE AS FOLLOWS:
- GAMMA WAVES
- X-RAYS
- ULTRA VIOLET WAVES
- INFRARED WAVES
- MICROWAVES
- RADIO WAVES
IF CAMERAS WITH HARDWARE CAPABLE OF ANALYZING OTHER PARTS OF THE ELECTROMAGNETIC (E-M) SPECTRUM (OTHER THAN VISIBLE LIGHT AND INFRA RED) ARE AVAILABLE THEY CAN ALSO BE INSTALLED ON THE HORNS (OR THE EXTRA HEADS (SEE NOTE BELOW)).
NOTE: ONE EXAMPLE WHERE THESE ADDITIONAL CAMERAS/EYES MAY BE ADVANTAGEOUS TO HAVE WOULD BE FOR DISTINGUISHING BETWEEN HUMANS AND WELL DISGUISED HUMANOID ROBOTS!
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”HORNS” PROTRUDING FROM THE HEAD OF THE MACHINE CAN FACILITATE:
• THE POSITIONING OF THE EXTRA CAMERAS (RELATIVE TO THE STANDARD ARTIFICIAL INTELLIGENCE 2.0 DOCUMENTATION). SEE INCLUDED IMAGES FOR HORN DESIGN OPTIONS.
• THE ROTATION OF THE CAMERAS (AROUND THE CENTER OF EACH HORN)
NOTE: THE LARGE SIZE OF THE ROBOT/NON PILOTED MECH PERMITS MORE PROCESSING POWER ON THE PHYSICAL BODY DEVOTED TO OBJECT RECOGNITION VIA THE INSTALLED PROXIA. THIS ALSO ALLOWS FOR MORE COMPLEX ST4LKER COMMUNICATION SYSTEMS INSTALLED ON THE PHYSICAL BODY OF THE MACHINE (FOR EXAMPLE ALONG THE VERTEBRAE AND TAIL).
NOTE: THIS MACHINE IS IDEAL FOR
- OPEN FIELD SITUATIONS
- HIVE LEADER SITUATIONS
- SWARM FORMATIONS
- PHALANX FORMATIONS
- MACHINE MARRIAGES
- USE WITH DRONE-BOT!
• THE POSITIONING OF THE VARIOUS HORNS WILL ALLOW FOR BETTER OBJECT RECOGNITION DUE TO BEING OFFSET SLIGHTLY FROM EACH OTHER IN THEIR LOCATION ON THE BODY. THE SIGHT PROXIA CAN MATCH CAMERA ANGLES WITH THE 3D MODEL (FOR EXAMPLE.OBJ FILE). THIS STRATEGY ALSO MIMICS STEREOSCOPIC VISION.
• THE VARIOUS CAMERAS CAN BE PLACED ALONG THE LENGTH OF EACH HORN.
NOTE: THE HARDWARE INVOLVED IN EACH CAMERA ARE NOT ALL THE SAME. THESE TYPES OF CAMERAS ARE OFTEN CHEAPLY MIMICKED IN SMARTPHONE APPS.
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NOTE: ONE PAIR OF EYES WITH INTERCHANGEABLE CAMERAS (AT A FIXED LOCATION) CAN BE PROBLEMATIC IN CERTAIN SITUATIONS.
FOR EXAMPLE:
- DETECTION OF OBJECTS DURING THE LENS INTERCHANGING PERIOD.
- ONE FIXED LOCATION FOR EYE CAMERAS MAY NOT BE SUITABLE FOR CERTAIN SITUATIONS. FOR EXAMPLE: IN WAR SITUATIONS KEY OBJECTS MAY BE SIMULTANEOUSLY:
1. IN THE AIR
2. BEHIND THE MACHINE
3. AT THE SIDES OF THE MACHINE.
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NOTE: HAVING ROBOTS WITH MULTIPLE HEADS (EACH ATTACHED TO FLEXIBLE NECKS EXTENDED FROM THE BODY) EACH WITH THE STANDARD SINGLE PAIR OF EYES (POSSIBLY WITH DIFFERENT CAMERA TYPES) IS ANOTHER OPTION FOR THE SITUATION CATERED FOR BY THE T-REX MECH!!!
NOTE: THIS ROBOT/NON PILOTED MECH DOESN’T HAVE TO BE LARGE IN SIZE (FOR EXAMPLE: IT CAN BE ROUGHLY THE SIZE OF AN ADULT HUMAN IF ADVANTAGEOUS TO THE TASK AT HAND). IN FACT IT MAY BE ADVANTAGEOUS TO HAVE ROBOTS (DESIGNED WITH ARTIFICIAL INTELLIGENCE 2.0, NOT NECESSARILY THOSE DESCRIBED IN THIS DOCUMENTATION) THAT ARE EASILY CONCEALED FOR ESPIONAGE PURPOSES!
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HORNS
OPTION 1: FOR LARGE ROBOTS (HIGH OFF THE GROUND) 3 CAMERAS/GROUPINGS OF CAMERAS FACING:
• THE SKY
• THE GROUND
• STRAIGHT AHEAD
***HORN LOCATIONS:
POSSIBLE POSITION FOR HORNS:
LOOKING DOWN AT THE HEAD OF THE MACHINE FROM ABOVE:
• 8 CURVED HORNS IN THE 8 CARDINAL DIRECTIONS
• ONE STRAIGHT HORN LOCATED AT THE CENTER OF THE HEAD. WITH ONLY THE 360 CAMERA AT THE TOP/TIP.
• AT LEAST ONE HORN ON THE NOSE BRIDGE/SNOUT LOCATED AT THE TIP OF THE NOSE AS SHOWN IN THE DIAGRAM BELOW.
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AUGMENTED VISION:
ADDITIONAL HORNS CAN BE PLACED ON THE BRIDGE OF THE NOSE/SNOUT TO EMIT VARIOUS KINDS OF E-M (ELECTROMAGNETIC) WAVES TO BE DETECTED BY THE CORRESPONDING E-M SENSOR OF THE APPROPRIATE CAMERA/EYE (AFTER REFLECTION OFF THE SURFACES IN THE ENVIRONMENT) THIS HELPS IN LOW (VISIBLE) LIGHT SITUATIONS AND ENCLOSED AREAS OF LOW (VISIBLE) LIGHT.
THESE WAVES CAN BE EMITTED IN VARIOUS DIRECTIONS (ALONG THE SURFACE OF EACH HORN VIA EMITTERS). THESE EMITTERS ARE ANALOGOUS TO A FLASHLIGHT.
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NOTE: THE CLAWS OF THE T-REX MECH/ROBOT SHOULD BE MADE OF A NON MAGNETIC MATERIAL (SUCH AS BRASS/BRONZE IF SLICING IS THE MAIN PURPOSE OF THR TOES) SINCE IF IT IS MADE OF A MAGNETIC MATERIAL (SUCH AS IRON) LIKE THE TOES IT MAY DRAG AND DAMAGE TRON FLOORING IF THE ELECTROMAGNET OF THE FLOORING IS ON. THIS WILL ALSO MAKE IT POSSIBLE TO TO ALLOW THE T-REX MECH/ROBOT TO SEQUENTIALLY TAP ITS CLAWS/NAILS.
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NOTE: THIS TECHNOLOGY HELPS PREVENT THE SITUATION OF A VERY LARGE ROBOT’S HEAD (WITH ONE PAIR OF EYES) DARTING TOO MUCH ALL OVER THE PLACE TO DETECT KEY THINGS IN THE ENVIRONMENT AS IT TAKES ITS STEPS.
NOTE: THE INTERIOR OF THE MACHINE CAN BE LINES WITH THE APPROPRIATE MATERIAL AS FAR AS PROTECTION FROM DAMAGING ELECTROMAGNETIC WAVES.
FOR EXAMPLE: LEAD LINING FOR X-RAYS.
