Table of Equations
BOOK SECTIONS / CHAPTERS
SECTION 1: UNMANNED AIRCRAFT SYSTEMS
SECTION 2: UNMANNED UNDERWATER SYSTEMS
Chapter 7 Principles of Naval Architecture Applied to UUVs [Jackson]
Equations (7.1)-(7.12) Jackson hull-form and hull envelope
Equations (7.13)-(7.14) Bottaccini Model
Equations (7.15)-(7.16) Gilmer and Johnson Model
Equation (7.17) Jackson Curve Fit Model
Equation (7.18) Jackson-Hoerner Model
Equation (7.19) Jackson Parallel Mid-Body Model
Equations (7.20)-(7.26) Martz Model
Equations Of Motion For UUVs
Equation (7.27) Surge equation:
Equations (7.28)-(7.29) Horizontal plane equations
Equations (7.30)-(7.31) Vertical plane equations
Equation (7.32) Roll equation
Equation (7.33) Hydrodynamic Derivative Forms
Stability And Control In The Horizontal Plane
Equations (7.34)-(7.35) Equations in derivative form:
Equations (7.36)-(7.37) Dynamic stability
Equations (7.38)-(7.40) Steering motions:
Stability And Control In The Vertical Plane
Equations (7.41)-(7.43) Equations in derivative form
Equations (7.44)-(7.45) Dynamic stability
Equations (7.46)-(7.50) Motion control with surfaces operating
SECTION 3: UNMANNED VEHICLES FOR GROUND / LAND OPERATIONS & PENETRATION OF ADS
Chapter 9: Chinese Advances in Stealth UAV Penetration Path Planning in Combat Environment [Nichols]
Equation (9.1) Path planning basic relationship
Equation (9.2) Path planning for single UAV
Equation (9.3) Path planning for multiple UAVs
Equation (9.4) Path planning for multiple UAVs with constraints Џ
Equation (9.5a-b) 2D Path planner kinematic model
Equation (9.6) Lateral acceleration a proportional to curvature k
Equation (9.7) Generation of safe paths with Џsafe
Equation (9.8) Collision avoidance constraints
Equation (9.9) A-STAR algorithm cost function
Equation (9.10) D-STAR algorithm cost function with uncertainty
Equation (9.11) MPC prediction model
Equation (9.12) MSSM dynamic prediction model
SECTION 4: UNMANNED VEHICLES WEAPONS FOR C4ISR & POPULATION TRACKING & CONTROL
SECTION 5: UV GEOPOLITICAL, MARITIME & LEGAL ADVANCES
