ξ Unmanned System Development with Artificial Intelligence (AI) and Hydrogen powered »Ξ |
»Benefits »Mission Profile »Performance »Senses » Specialty » Structure » Usage |
»Behaviour » Symbol » Weight & Measures - see also Appendix » A » B » C |
ξ »Rapidly deployable Unmanned & Autonomous »Systems (UAS) for »Network-Centric Business Operations »ζb |
ξ Unmanned System Development for Liquid Hydrogen (LH2) powered business Unmanned & Autonomous Vehicles (UAV) »Π |
ξ »Rapidly deployable Unmanned & Autonomous »Systems (UAS) for »Network-Centric Patrol Operations »ζp |
ξ Unmanned System Development for Liquid Hydrogen (LH2) powered patrol Unmanned & Autonomous Vehicles (UAV) |
ξ »Rapidly deployable Unmanned & Autonomous »Systems (UAS) for »Network-Centric Military Operations »ζm |
ξ Unmanned System Development for Liquid Hydrogen (LH2) powered military Unmanned & Autonomous Vehicles (UAV) »Π |
ξ Unmanned System Development for Hydrogen Fuel Cell powered business Unmanned & Autonomous Base Stations (UAS) »Π |
ξ Unmanned System Development for Hydrogen Fuel Cell powered patrol Unmanned & Autonomous Base Stations (UAS) »Π |
ξ Unmanned System Development for Hydrogen Fuel Cell powered military Unmanned & Autonomous Base Stations (UAS) »Π |
ξ Unmanned System Development for Hydrogen Fuel Cell powered business Wireless Ad-hoc Sensors »Π |
ξ Unmanned System Development for Hydrogen Fuel Cell powered patrol Wireless Ad-hoc Sensors »Π |
ξ Unmanned System Development for Hydrogen Fuel Cell powered military Wireless Ad-hoc Sensors »Π |
ξ Unmanned System Development powered by Hydrogen Magazines and Cartridges in business Resource Devices »Π |
ξ Unmanned System Development powered by Hydrogen Magazines and Cartridges in patrol Resource Devices »Π |
ξ Unmanned System Development powered by Hydrogen Magazines and Cartridges in military Resource Devices »Π |
ξ Multiprocessing4Xi SDKfor high performance Multi-Core Processors |
Δ Faster Systems with modern Processor Architectures |
Δ Smart Diagnostics for Multiprocessing |
Δ Secure Debug on/off switching |
Δ More variety of Verbs and Expressions in programming |
Δ Reports built in Industry Standard formats |
Δ Visualization of the System from multiple Viewpoints |
Δ Increased productivity to the whole System Life Cycle |
Δ Logic not changed when debugging added |
Δ Increased Productivity via available Patterns |
Δ Verbs for Object Actions from Natural Language |
Δ Automatic Macros embedded for Smart Keyboards |
Δ Easier editing and analyzing of Programs with Tags embedded |
Δ Parsing of Programs for the quality of Software Engineering |
Δ Errors and Exceptions are properly handled |
Δ Faster and more reliable Systems engineered |
Δ Agile System Development |
Δ Time from Proto to Production minimized |
Δ Improved quality of Deliveries |
Δ Installations with on-site Diagnostics |
Δ Faster Error solving |
Δ Increased Performance with easier System Tuning |
Δ Both visual and textual Trace |
Δ Time stamped Events |
Δ Modular System Architecture |
Δ Based on Open Systems |
Δ Less dependence on Operating System |
Δ Managed Exceptions |
Δ Architecture scales from Single to Multicore Systems |
ξ Scope4Xi SDK |
Δ Software generated automatically for Xi = {APU ... CPU ... GPU ... ZPU}, |
- where Xi depicts virtual device prepresenting Processing Unit such as GPU |
Δ System can automatically decide the best Processing Unit(s) for Task(s) |
Δ Programmers can also allocate Processins Unit(s) for Task(s) |
Δ Improved performance |
Δ Balanced resource usage |
Δ Processing units {APU ... CPU ... GPU ... ZPU} can be simulated |
Δ Machine generated code increases productivity |
Δ Adding new hardware becomes less costly |
ξ Studio4Xi SDKΔ AI and autonomous System Development |
Δ Macros for messages to be embedded in programs |
Δ Parsers for software modules |
Δ Timing services for trace |
Δ XML-files to sense, reason and ace traces |
Δ Nouns with colors to depict software actors |
Δ Easy import for Classes and Functions |
Δ Find services to analyze and develop programs |
Δ Verified hyperlinks built for web pages |
Δ Embedded trace for Multiprocessing Programs |
Δ Automated trace for Software Development |
Δ Adjustable timeouts for tuning systems |
Δ Symbolized software Actors for trace |
Δ XML generated for Sense, Reason and Ace |
Δ Dynamically loadable Programs generated with software |
Δ 2D/3D Image Programs for special Processors |
Δ Natural language trace embedded in programs |
Δ Profiles for smart keyboards |
Δ Programs for module and system testing |
Δ 3D coordinates for timed trace events |
Δ Programs for system constants |
Δ Compability with standard Multiprocessing |
Δ Multiprocessing classes Process4Xi, Queue4Xi, Pipe4Xi |
Δ Trace and Benchmark results embedded in modules |
Δ Programs to create Web Portals |
Δ Programs to view Web Portals based on roles and categories |
Δ Version management with one program |
Δ Statistics for software and web development |
Δ Target functions automatically created for processes |
Δ Modules generated to activate processes with target functions |
Δ Dummy processes for threads to simulate CPU cores |
Δ Target functions activated for processes |
Δ Automatically generated Programs and Tests |
Δ Multiprocessing Programs generated automatically to distribute work load |
Δ Command and Control via Named Pipes and Queues |
Δ Visual Symbols for »Verbs and »Nouns |
Δ HTML generated to »Verbs, Clusters and Supers |
Δ Colors generated to »Actors |
Δ Software Objects generated for Processing Units {BPU ... GPU ... ZPU} |
ξ App Waves |
Categories |
τ Artificial Intelligence (AI) |
Δ antarcticocean ».ai |
Δ arcticocean ».ai |
Δ autonomousbay ».ai |
Δ autonomousdevice ».ai |
Δ autonomoussystem ».ai |
Δ caribbeansea ».ai |
Δ lidarsystem ».ai |
Δ marlinfishing ».ai |
Δ pacificocean ».ai |
Δ personalrobot ».ai |
Δ southernocean ».ai |
Δ dragonxi ».ai |
Γ Autonomous |
Δ autonomousbay ».ai |
Δ autonomousdevice ».app ».dev ».ai |
Δ autonomousrobot ».app ».dev |
Δ autonomoussystem ».app ».dev ».ai |
Δ autonomousvehicle ».app ».dev |
ρ Unmanned |
Δ dragonxi ».app ».dev ».com ».ai |
Δ lidarsystem ».app ».dev ».ai |
Δ unmannedsystem ».app ».dev |
All in alphabetical order |
[A] |
Δ aceit »app |
Δ aeronautics »app »dev |
Δ antarcticocean ».app ».dev ».ai |
Δ app2ace4yo ».app |
Δ arcticocean ».app ».dev ».ai |
Δ atlanticocean ».app ».dev |
Δ autonomousbay ».ai |
Δ autonomousdevice ».app ».dev ».ai |
Δ autonomousrobot ».app ».dev |
Δ autonomoussystem ».app ».dev ».ai |
Δ autonomousvehicle ».app ».dev |
[B] |
Δ beyondspace ».app |
[C] |
Δ caribbeansea ».app ».dev ».ai |
Δ cryogenics ».app ».dev |
[D] |
Δ deeplearninginference ».app |
Δ dragonxi ».app ».dev ».com ».ai |
[I] |
Δ indianocean ».app ».dev |
[J] |
Δ jetport ».app ».dev |
[L] |
Δ lidarsystem ».app ».dev ».ai |
Δ longrangehunting ».app |
[M] |
Δ marlinfishing ».app ».dev ».ai |
[N] |
Δ namib ».app |
[O] |
Δ objectdetection ».app |
Δ oceanography ».app |
Δ open source platform ».app ».dev |
[P] |
Δ pacificocean ».app ».dev ».ai |
Δ personalrobot ».app ».dev ».ai |
Δ porthos ».app ».dev |
[R] |
Δ reasonit ».app |
Δ rubalkhali ».app |
[S] |
Δ senseit ».app |
Δ southernocean ».app ».dev ».ai |
Δ spacescience ».app |
[T] |
Δ transferlearning ».app |
[U] |
Δ unmannedsystem ».app ».dev |
[Y] |
Δ yocto ».app |
Δ yourdragonxi ».com ».org |
Ξ Contact {ceo|cbo|cco|cdo|cfo|cmo|cpo|cto|sec|} |
ξ » email
@domain
Δ autonomoussystem ».dev ».ai Δ personalrobot ».dev ».ai |
ξ » email
@domain
Δ antarcticocean ».ai Δ arcticocean ».ai Δ autonomoussystem ».ai Δ caribbeansea ».ai Δ marlinfishing ».ai Δ pacificocean ».ai Δ personalrobot ».ai Δ southernocean ».ai |
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