Table of Equations
SECTION 1: CYBER-HUMAN SYSTEMS (CHS)
- The Technological Future – Merging with Machines [Toebes] √
- CHS Sensors and the Law (Lonstein) √
- Artificial Brains and Body (Mumm) √
- Future of Robotics and AI in Space Operations (Hood) √
- The Reality of Cyborgs and the Look of the Future (Johnson) √
5-1 Risk = Threats X Vulnerabilities X Impacts / Countermeasures
5-2 Risk = Threats / Countermeasures
6. Machines Hacking Machines – Turing’s Legacy (C. Carter) √
7. Management Challenges for Mixed Human-Machine Teams (Ryan) √
8. NeuroStrike – The Cyber, Cognitive, Nanotech and Electronic Gateway to Mindfully impaired Metaverse (McCreight) √
SECTION 2: SPACE THREATS
9. Biological Threats and Growth in Space (Sincavage) √
10. Space Electronic Warfare (Nichols) √
10-1 Kepler’s Third Law
10-2 The Elevation From The Nadir And Range To A Threat From A Satellite Can Be
10-3 Formula For Received Power To The Receiver
10-4 One-Way Link Equation Gives The Received Power PR In Terms Of The Other Link Components (In Decibel Units).
10-5 One-Way Link Equation Gives The Received Power PR In Terms Of The Other Link Components, In Linear (Non-Decibel Units),
10-6 Power Received By The Satellite Payload Receiver In The Presence Of A Hostile Transmitter
10-7 Power Received By The Ground-Based Receiver Or Hostile Receiver
10-8 Jammed Link Equation
10-9 The Jamming-To-Signal Ratio (J/S)
10-10 Intercept Link Equation
11. Space Systems Modelling and Simulation (Diebold) √
12. Deep Space Warfare and Space Dominance (Nichols) √
12-1 Force Due to Gravity, Between Two Masses (M1 X M2 ), Which are a Distance R Apart
SECTION 3: SPACE WARFARE, HYPERSONICS, & MATERIALS
13. Progress in Hypersonic Missiles and Space Defense (Slofer) √
13-1 Velocity of sound in Knots
13-2 G-force based on changes in objects speed
13-3 Drag force acting on an object
14. The Rise of Cyber Threats in Space – Future of Cyberwar (Farcot) √
15. Strategy and Economics of Space Missions (Jackson & Joseph) √
15-1 Ideal Gaussian laser beam
15-2 Integral of irradiance with respect to time
15-3 Maximum exposure is at the centre of the incident beam
15-4 The maximum cure depth Cd can now be determined at Zmax
15-5 The cured line width, Lw:
15-6 Cure depth is increased the cured line width increases by the square root of the cured depth
15-7 Substituting for Emax and solving for Vs
16. The Quantum Future of Space Warfare (Drew) √
17. Wireless Power for Space Applications (Khan) √
APPENDIX A dB MATH AND PLANE / SPHERICAL TRIGONOMETRY PRIMER
A-1 To Convert To Decibel Form (base 10 log)
A-2 A reverse way of looking at the process or converting back to a nonlogarithmic form
A-3 The Law of Sines
A-4 The Law of Cosines for Sides
A-5 The Law of Cosines for Angles
A-6 The Law of Sines for Spherical Triangle
A-7 The Law of Cosines for Sides
A-8 Law of Cosines for Angles
A-9 sin a = tan b cotan B
A-10 cos A = cotan c tan b
A-11 cos c = cos a cos b
A-12 sin a = sin A sin c