TEUFEL Probe: Difference between revisions

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; Cruising Speed : 300 kph
; Cruising Speed: 300 kph
; Maximum Speed : 1000 kph
; Maximum Speed: 1000 kph
; Nominal Range : 1 Meter - 1 AU from Vessel
; Nominal Range: 1 Meter - 1 AU from Vessel
; Maximum Range : 21 AU Control<br>2.5 ly Relay
; Maximum Range: 21 AU Control<br>2.5 ly Relay


The newly developed TEUFEL (Tracking and Evasive Unmanned Field Exploration Lookout) Sensor Probe is an entirely new design in remote sensing and threat assessment. These small, 1.7 meter diameter truncated-sphere probes are launched from a ship. The probes, made of energy absorbent materials, are extremely difficult to detect and operate on a micro-gravity displacement generated within the core by a [[Spacial Variance Reactor]]. The simple onboard AI system enables operator command input.
The Tactical Exploration Universal Field Emission Locator (TEUFEL) Sensor Probe represents a breakthrough in remote sensing and threat assessment technology. These compact, 1.7-meter diameter truncated-sphere probes are designed for deployment from a ship. Constructed from energy-absorbent materials, the probes are exceptionally difficult to detect. They operate using a micro-gravity displacement generated within the core by a [[Spacial Variance Reactor]]. An onboard AI system facilitates operator command input.


== Capabilities ==
== Capabilities ==
; Operational Capacity: A ship can handle up to 20 TEUFEL Probes operating simultaneously.
; Operational Capacity: A single ship can manage up to 20 TEUFEL Probes operating simultaneously.
; Group Operation: Capable of operating independently or in groups to enhance sensor strength through array pattern formation.
; Group Operation: Probes are capable of operating independently or in groups to enhance sensor strength through array pattern formation.
; Rapid Direction Change: Can execute sudden direction changes in three-dimensional space within microseconds, making their movement paths hard to track.
; Rapid Direction Change: Probes can execute sudden direction changes in three-dimensional space within microseconds, making their movement paths challenging to track.
; Adaptive Pathing: Follows pre-programmed paths, often erratic, with ability to plot random or semi-random course changes for evasion and varied sensor readings.
; Adaptive Pathing: Probes follow pre-programmed paths, often erratic, with the ability to plot random or semi-random course changes for evasion and varied sensor readings.
; Sensor Suite: Equipped with a comprehensive range of short and long-range sensors, able to detect and analyze various types of data.
; Sensor Suite: Probes are equipped with a comprehensive range of short and long-range sensors, capable of detecting and analyzing various types of data.
; Refractive [[Warp Drive]]: Able to use a ship's existing warp field to travel through space at warp speed, matching the ship's speed without requiring their own warp drives. This enables them to achieve the same speed as the ship within a 21 AU range.
; Refractive [[Warp Drive]]: Probes can utilize a ship's existing warp field to travel through space at warp speed, matching the ship's speed without requiring their own warp drives. This feature enables them to achieve the same speed as the ship within a 21 AU range.
; Communications: Employs precise point-to-point subspace enhanced direct beam communications, similar to laser pulse communications but at faster-than-light speeds. Also utilizes subspace high frequency burst communications for communication with their vessel or with each other as required.
; Communications: Probes employ precise point-to-point subspace enhanced direct beam communications, similar to laser pulse communications but at faster-than-light speeds. They also utilize subspace high-frequency burst communications for communication with their vessel or with each other as required.
; Neural Net Communication: Developed independently via a neural net algorithm, their inter-probe communication adapts to suit each situation. Probes from the same ship share a unique communication language.
; Neural Net Communication: Developed independently via a neural net algorithm, their inter-probe communication adapts to suit each situation. Probes from the same ship share a unique communication language.
; Encryption and Security: Uses a multi-dimensional fractal encryption algorithm that routinely alters timing and frequency range of all subspace communications. Encryption keys are frequently rotated, synced at launch time. Also uses a signal authentication key tied to the ship's transponder code.
; Encryption and Security: Probes use a multi-dimensional fractal encryption algorithm that routinely alters the timing and frequency range of all subspace communications. Encryption keys are frequently rotated, synced at launch time. They also use a signal authentication key tied to the ship's transponder code.
; Offensive Capability: In extreme circumstances, the probes can be commanded to overload their power cores, causing sizable explosions. Coordinated detonations can serve as a powerful weapon.
; Offensive Capability: In extreme circumstances, the probes can be commanded to overload their power cores, causing sizable explosions. Coordinated detonations can serve as a powerful weapon.


[[Category:Robotics]]
[[Category:Robotics]]

Revision as of 05:28, 19 July 2023

Cruising Speed
300 kph
Maximum Speed
1000 kph
Nominal Range
1 Meter - 1 AU from Vessel
Maximum Range
21 AU Control
2.5 ly Relay

The Tactical Exploration Universal Field Emission Locator (TEUFEL) Sensor Probe represents a breakthrough in remote sensing and threat assessment technology. These compact, 1.7-meter diameter truncated-sphere probes are designed for deployment from a ship. Constructed from energy-absorbent materials, the probes are exceptionally difficult to detect. They operate using a micro-gravity displacement generated within the core by a Spacial Variance Reactor. An onboard AI system facilitates operator command input.

Capabilities

Operational Capacity
A single ship can manage up to 20 TEUFEL Probes operating simultaneously.
Group Operation
Probes are capable of operating independently or in groups to enhance sensor strength through array pattern formation.
Rapid Direction Change
Probes can execute sudden direction changes in three-dimensional space within microseconds, making their movement paths challenging to track.
Adaptive Pathing
Probes follow pre-programmed paths, often erratic, with the ability to plot random or semi-random course changes for evasion and varied sensor readings.
Sensor Suite
Probes are equipped with a comprehensive range of short and long-range sensors, capable of detecting and analyzing various types of data.
Refractive Warp Drive
Probes can utilize a ship's existing warp field to travel through space at warp speed, matching the ship's speed without requiring their own warp drives. This feature enables them to achieve the same speed as the ship within a 21 AU range.
Communications
Probes employ precise point-to-point subspace enhanced direct beam communications, similar to laser pulse communications but at faster-than-light speeds. They also utilize subspace high-frequency burst communications for communication with their vessel or with each other as required.
Neural Net Communication
Developed independently via a neural net algorithm, their inter-probe communication adapts to suit each situation. Probes from the same ship share a unique communication language.
Encryption and Security
Probes use a multi-dimensional fractal encryption algorithm that routinely alters the timing and frequency range of all subspace communications. Encryption keys are frequently rotated, synced at launch time. They also use a signal authentication key tied to the ship's transponder code.
Offensive Capability
In extreme circumstances, the probes can be commanded to overload their power cores, causing sizable explosions. Coordinated detonations can serve as a powerful weapon.