Difference between revisions of "Formulas"

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m (Mining and Cycle Time)
m (Mining and Cycle Time)
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* '''Mined Amount Increase'''
 
* '''Mined Amount Increase'''
  
Mining ( % ) = ( '''Basic/Advanced Robot Control''' x 0.05 + '''Extensive Mining''' x 0.01 + '''Industrial Robot Control''' x 0.01  
+
Mining ( % ) = ( '''Basic/Advanced Robot Control''' x 0.05 + '''[[Extensive mining]]''' x 0.01 + '''[[Industrial robot control]]''' x 0.01  
 
+ '''% Mining Spark''' ) * ( 1 +  '''% Extensive Ore Mining''' x 0.03 + '''Extensive Ore Mining''' x 3) = A
 
+ '''% Mining Spark''' ) * ( 1 +  '''% Extensive Ore Mining''' x 0.03 + '''Extensive Ore Mining''' x 3) = A
  
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* '''Cycle Time Mining'''
 
* '''Cycle Time Mining'''
  
Cycle Time ( s ) = Base Cycle Time / ( 1 + '''Basic Intensive Mining''' x 0.01 + '''Advanced Intensive Mining''' x 0.02 + '''Expert Intensive Mining''' x 0.02+ '''Advanced Robot Control''' x 0.05 )
+
Cycle Time ( s ) = Base Cycle Time / ( 1 + '''[[Basic intensive mining]]''' x 0.01 + '''[[Advanced intensive mining]]''' x 0.02 + '''[[Expert intensive mining]]''' x 0.02+ '''[[Advanced robotics]]''' x 0.05 )
  
 
* With Industrial Tuning and Fast Extractor [[#Nexus]] module :
 
* With Industrial Tuning and Fast Extractor [[#Nexus]] module :

Revision as of 18:04, 7 January 2013

Damage and Weapon Cycle Time

  • Damage :

Damage ( % ) = Base Damage x ( 1 + Basic/Advanced Robotics x 0.05 + Basic/Advanced Weapon ) x ( 1 + Nuimqol/Thelodica/Pelistal Robot Control x 0.01 + Target Analysis x 0.01 )

  • With Weapon Tuning :

Damage ( % ) = Damage x ( 1 + % Damage Tuning ) number of tunings


  • Weapon Cycle Time :

Cycle Time ( s ) = Base Cycle Time / ( 1 + General Firing/Missile Firing x 0.01 + Rapid-Firing/Complex Launch x 0.03 ) / ( 1 + Nuimqol/Thelodica/Pelistal Robot Control x 0.01 )

  • With Weapon Tuning :

Cycle Time ( s ) = Cycle Time x ( 1 - % Cycle Time Tuning ) number of tunings

Mining and Cycle Time

  • Mined Amount Increase

Mining ( % ) = ( Basic/Advanced Robot Control x 0.05 + Extensive mining x 0.01 + Industrial robot control x 0.01 + % Mining Spark ) * ( 1 + % Extensive Ore Mining x 0.03 + Extensive Ore Mining x 3) = A


  • With Industrial Tuning :

Mining( % ) = Previous Mining ( % ) x ( 1 + % Industrial Tuning ) + Industrial Tuning

Example with all Skill at 10 and Riveler MkII full Tuning =>

( 10 x 0.05 + 10 x 0.01 + 10 x 0.03 10 x 0.01 ) x ( 1 + 10 x 0.03 ) + 30 = 121 %

First tuning => 121 x 1.1 +10 = 143.1 %
Second tuning => 143 x 1.1 + 10 = 167.41 %
Third tuning => 167.41 x 1.1 + 10 = 194.151 %
Fourth tuning => 94.151 x 1.1 + 10 = 223,5661 %
Fifth tuning => 223,5661 x 1.1 +10 = 255.92271 %

Example : A = 121% and 5 T4 industrial tuning (10%) , b =% Industrial Tuning = 0.01 c =Industrial tuning value = 10

[A+(c/b)] x (1 + b ) number of tunings - (c/b)

(121+(10/.1) ) x ( 1 + 0.01 )^5 - ( 10 / 0.1 )= 221x1.1^5 -100 = 255.92271 %


  • Cycle Time Mining

Cycle Time ( s ) = Base Cycle Time / ( 1 + Basic intensive mining x 0.01 + Advanced intensive mining x 0.02 + Expert intensive mining x 0.02+ Advanced robotics x 0.05 )

  • With Industrial Tuning and Fast Extractor #Nexus module :

Cycle Time ( s ) = Cycle Time x ( 1 - % Cycle Time Tuning )number of tunings x % Fast Extractor Module

Detection and Masking

  • Detection :

- Signal Detection modification ( % ) = Base Signal Detector x (1 + Signal Detection Skill x 0.02 ) + Signal Detection Skill x 2

- Base Bot Signal Detection x % Detection Spark x % Aura Emiter x Signal Detection modification ( % )

  • Masking :

- Signal Masking modification ( % ) = Base Signal Masking x (1 + Signal Masking Skill x 0.02 ) + Signal Masking Skill x 2

- Base Bot Masking Detection x ( 1+ % Spec Ops robot control) x % Masking Spark x % Aura Emiter x Signal Masking modification ( % )

ECM and Suppressor

  • EW Strengh for ECM and Suppressor with ECM tunings :

Ew Strengh ( Hw² ) = EW Strengh Base x ( 1 + Jamming electronics x 0.03 + Complex jamming electronics x 0.03 + Advanced Robotics x 0.05 ) x ( 1 + % ECM Tuning )number of tunings


  • Sensor Suppressor locking time :

Sensor Supressor locking time base x ( 1 + Sensor Suprressing Skill x 0.03 + Basic/Advanced robotics x 0.03) + ( Sensor Suprressing Skill + Basic/Advanced robotics ) x 3

With Sensor Suppressor Tunings :

Sensor Supressor locking time x ( 1 + % Sensor Suppressor tuning ) + Sensor Suppressor tuning

Example with Skill at 10 and T4 Sensor suppressor and T4 Sensor suppressor tuning :

40 x ( 1 + 0.6 ) + 60 = 124 % => 124 x 1.17 + 17 = 162.08 % locking time


  • Sensor Suppressor locking range :

Sensor Supressor locking range (%) = 1 - ( % Sensor Supressor locking range base x ( 1 - Basic/advanced controls x 0.02 ) x ( 1 - % Sensor Suppressor Tuning ) )

Example with Zenith MKII and T4 Sensor suppressor and T4 Sensor Suppressor Tuning :

1 - ( 1-0.25 )*( 1- 10 x 0.02) x ( 1 - 0.1 ) = 46 % locking range

Nexus

  • Fast Extractor NEXUS :

Industrial module cycle time ( % ) = 1 - ( 1 - % Base Industrial module cycle time ) / ( 1 + NEXUS Fast Extraction Skill x 0.01 )

Example with T4 Fact Extractor => 1 - (1 - 0,075) / 1,1 = 15.91 %


  • Industrial NEXUS :

Industrial module accumulator usage ( % ) = 1 - ( 1 - % Base Industrial module accumulator usage ) * ( 1 - NEXUS Industrial Skill x 0.01 )

Example with T4 Fact Extractor => 1 - (1 - 0,075) x ( 1 - 0.1 ) = 16.75 %


  • Navigation NEXUS :


  • Electronic Warfare NEXUS :

EW module optimal range (%) =  % Base EW module optimal range x ( 1 + NEXUS Electronic Warfare Skill x 0.02 ) + NEXUS Electronic Warfare Skill x 2

Example with T4 Electronic Warfare NEXUS => 7.5 % x 1.2 + 20 = 29 %

  • Assault NEXUS :