Index

Citation

Levy, G. (2018), "Index", Energy Power Risk, Emerald Publishing Limited, Leeds, pp. 321-326. https://doi.org/10.1108/978-1-78743-527-820181011

Publisher

:

Emerald Publishing Limited

Copyright © 2019 George Levy

---

INDEX

American options

, 178–182

for pricing

, 255–256

American/European vanilla options

, 120

Analytic option pricing formulae

, 105–113

Annualized standard deviation

, 63

APX power exchange (APX)

, 192, 199

Arithmetic progressions

, 293

Arrow–Debreu prices

, 143

Basic Linear Algebra Subprograms (BLAS)

, 245

Basket options. See Multi-asset options

Battery storage

, 214–217

BEGKR method

, 169

Benchmark portfolio

, 234–244

Binomial distribution

, 284–289

for large n and low probability p

, 285–286

for large number

, 286–288

normalized binomial variates

, 288–289

Binomial expansion

, 294–295

Binomial lattice

, 115

techniques

, 115

Binomial model

, 171

Bivariate cumulative normal

, 174

Black–Scholes equation

, 146, 259

Black–Scholes model

, 47

formula

, 52

Girsanov’s theorem

, 53

Greeks

, 60–61, 62

historical and implied volatility

, 61–67

inclusion of continuous dividends

, 57–60

Microsoft Excel

, 67–70

multi-asset option pricing partial differential equation

, 50–52

option pricing partial differential equation

, 47–50

probability density function

, 54

univariate cumulative normal function

, 55

Black–Scholes pricing framework

, 163

Brownian Bridge

, 15–17

Brownian motion

, 1, 3

model of asset price movements

, 5

with one source of randomness

, 11–12

properties

, 3–5

C++

, 1

classes

, 245

option pricing

, 254–256

random number class

, 250–254

risk percentiles

, 256–258

vector class

, 245–250

Call options on maximum and minimum of two assets

, 174

Central Limit Theorem

, 265–266

Confidence Intervals

, 267–268

Continuous dividends

, 46–47

inclusion

, 57–60

Contract risk distributions

, 198–200

Contract valuation

, 206–209

Correlation coefficient

, 164

Correlation matrix

, 9, 83, 223–224, 272

Covariance

, 270–272

covariance of n variables

, 271–272

three variables

, 271

two variables

, 270–271

Cox, Ross, and Rubinstein binomial lattice (CRR lattice)

, 118, 169

Crank–Nicolson method

, 150

Cumulative distribution function (CDF)

, 22, 39, 68, 193, 282, 289

Cumulative normal distribution function

, 292–293

Delta function

, 60, 126–127, 261

Demand side response (DSR)

, 2

Dependent variables

, 165

Doubly truncated Weibull distribution

, 98–102, 202–203

Downward branching node

, 139, 142–143, 145

Dual cash-out price method

, 190–191

Early exercise

, 155–159

Efficient frontier

, 225, 226

with no transaction costs

, 225–233

with transaction costs and benchmark portfolio

, 234–244

Empirical CDFs

, 193, 289–290

European options

, 173

call options on maximum and minimum of two assets

, 174

for pricing

, 254–255

put options on maximum of two assets

, 175–178

put options on minimum of two assets

, 174–175

Excel Visual Basic code

, 223

Exponential distribution

, 34, 281–282

Fast response generation units

, 206, 210

Financial risk distributions

, 189

Finite difference

approximation

, 146–150

lattices

, 169

method

, 160–162

Forward price

, 76–77

Four-state Markov Chain

, 195

Fubini’s theorem

, 22–23, 297

Fully implicit method

, 149–150

Gamma function

, 60, 95, 127, 260–261

Gaussian Copula

, 194

Gaussian distribution

, 7, 16

GBP/EUR exchange rate

, 34

GBP/USD exchange rate

, 34

Geometric Brownian motion (GBM)

, 1, 5, 47, 115

Geometric progressions

, 293

Girsanov’s theorem

, 8

Greeks

, 60–61, 125–129

Delta

, 261

European call

, 62

European put

, 62

Gamma

, 260–261

Rho

, 263

Theta

, 262–263

for Vanilla European options

, 259–260

Vega

, 263–264

Grid methods for Vanilla options

, 145

log-transformed grids

, 159–162

standard grids

, 146–159

stochastic process

, 145

Half hourly marginal system price benefit

, 194

Half hourly power price

, 42–44

simulation

, 36

Historic portfolio volume forecast error distribution

, 192–193

Imbalance risk

, 189

benefit of including customer into portfolio

, 194–195

contract risk distributions

, 198–200

contracted energy

, 190–191

MIP

, 195–197

risk distribution

, 192–193

SBP and SSP

, 197–198

single cash-out price

, 191–192

stand-alone cost

, 193–194

Independent, identically distributed random variables (IID random variables)

, 265, 269–270, 273

IID lognormal distribution

, 102

Intraday generation

, 217–221

Intraday power storage and demand optionality

, 210

battery storage

, 214–217

import site with storage and solar PV

, 212–213

storage connected to grid with/without solar PV generation

, 211–212

swing contract

, 213–214

Ito product rule

, 11

Brownian Motion with one source of randomness

, 11–12

in n dimensions

, 14–15

Ito quotient rule

, 12–14

Ito’s formula. See Ito’s lemma

Ito’s isometry–correlated processes

, 25–27

Ito’s isometry–single process

, 23–25

Ito’s lemma

, 5–8, 297

for multi-asset geometric Brownian motion

, 9–11

Johnson binomial lattice

, 133–137

Johnson distribution

, 84

option pricing formula

, 84–88

parameter estimation

, 89–93

Jump diffusion process

, 103

Kalman filter

, 82

Lattice methods

, 145

constructing and using standard binomial lattice

, 121–129

Johnson binomial lattice

, 133–137

log transformed binomial lattice

, 129–133

standard binomial lattice

, 115–121

trinomial lattice

, 137–145

for Vanilla options

, 115

Least squares Monte Carlo optimization

, 211–212, 213

Lithium ion batteries

, 210

Load management

, 35

Log transformed binomial lattice

, 129–133

Log-transformed grids

, 159

derivation of equation

, 159–160

finite difference method

, 160–162

see also Standard grids

Lognormal distribution

, 117, 280–281

Longstaff Schwartz regression approach

, 2

see also Least squares Monte Carlo optimization

Marginal power price

, 33

Market index price (MIP)

, 190, 195–197

Markov process

, 3

Markowitz efficient frontier

, 225

Markowitz mean–variance portfolio selection problem

, 223

Markowitz portfolio optimization

, 1

Martingale measure, pricing derivatives using

, 45–46

Martingale process

, 3

Mathematical reference

arithmetic and geometric progressions

, 293

cumulative normal distribution function

, 292–293

series expansions

, 294–295

standard integrals

, 291–292

Mersenne Twister uniform random number generator

, 250, 252

Merton jump diffusion model

, 102, 255

analytic option pricing formulae

, 105–113

jump diffusion process

, 103

Monte Carlo simulation

, 104–105

parameter estimation

, 113–114

Microsoft Excel

, 67–70

Microsoft Excel VBA code

, 1, 90–93, 223, 230, 240–242

Mixed integer linear programming (MILP)

, 211

Moment generating functions

, 272–273

Monte Carlo

fundamental power stack model

, 2

lattice approach

, 165

methods

, 163

simulation

, 33, 104–105, 192, 250

Multi-asset

Black–Scholes equation

, 163–164

derivative

, 50

geometric Brownian motion

, 1, 9–11

Multi-asset options

, 165

multidimensional lattice methods

, 163, 169–171

multidimensional Monte Carlo methods

, 165–169

pricing partial differential equation

, 50–52

three asset options

, 183–187

two asset options

, 171–182

see also Single asset American style options; Single asset European options

Multifactor forward curve model

, 82–83

N2EX

, 192

National Grid

, 210

Newton’s method

, 64, 66

Normal (Gaussian) distribution

, 277–280

Normal cumulative distribution

, 67

Normalized binomial variates

, 133, 288–289

NORMDIST function

, 67

Numeraires

, 45

Object-based programming languages

, 248

Objective Function

, 1, 230, 233, 244

One factor forward curve model

, 72, 137

exponential factor

, 72

forward price and spot price

, 76–77

option pricing formula

, 77–80

spot price process

, 73–76

One-factor spot model

, 70–72

Option payoff at terminal nodes

, 123–124

Option pricing

, 254–256

American options

, 255–256

European options

, 254–255

formula

, 77–80, 84–88

partial differential equation

, 47–50

Option values computation at given time instant

, 151–155

Ornstein–Uhlenbeck process

, 1, 17

mean

, 18

variance

, 19–21

Payoff

, 45, 46, 54, 123–124, 172, 213

Poisson distribution

, 282–283

Poisson process

, 21–22, 34, 102

Poisson random number generator functions

, 253

Portfolio optimization

, 224

covariance matrix

, 223–224

efficient frontier with no transaction costs

, 225–233

efficient frontier with transaction costs and benchmark portfolio

, 234–244

optimum asset allocation

, 224–225

Portfolio volume forecast error distributions

, 194

Power contracts

imbalance risk

, 189–200

intraday generation

, 217–221

intraday power storage and demand optionality

, 210–217

wind contracts

, 200–209

Power price model

modeling wind and solar generation

, 36–42

power stack model

, 33–36

simulated half hourly power price

, 42–44

Power spot price, stochastic process for

, 205–206

Power stack model

, 33–36

Price European exchange options

, 171

Probability

density function

, 23, 54, 58, 275, 277

distribution

, 15

measure

, 53

Problems

, 27–32

answers to

, 297–313

Put options

on maximum of two assets

, 175–178

on minimum of two assets

, 174–175

Put–call parity

, 46–47

Radon–Nikodym derivative

, 8

Random number class

, 250–254

Random walk

, 3

Reasonable approximation

, 119

Relative contract maturities

, 83

Renewable energy

, 2

generators

, 189

Risk percentiles

, 256–258

Simulation

, 204–205

Monte Carlo simulation

, 33, 104–105, 192, 250

Single asset American style options

Grid methods for Vanilla options

, 145

lattice methods for Vanilla options

, 115–145

see also Multi-asset options

Single asset European options

Johnson distribution

, 84–93

Merton jump diffusion model

, 102–114

multifactor forward curve model

, 82–83

one factor forward curve model

, 72–80

one-factor spot model

, 70–72

pricing derivatives using martingale measure

, 45–46

put–call parity

, 46–47

two-factor spot model

, 81–82

Vanilla options and Black–Scholes model

, 47–70

Weibull distribution

, 93–102

see also Multi-asset options

Single cash-out price method

, 190–192

Single-factor forward curve model

, 82

Solar generation

, 35, 36

actual half hourly UK summer solar PV generation

, 41

actual half hourly UK winter solar PV generation

, 42

current and previous daily average UK solar PV generation

, 38

current and previous half hour UK solar PV generation

, 38

simulated half hourly UK summer solar PV generation

, 41

simulated half hourly UK winter solar PV generation

, 42

Solar PV generation

import site with storage and

, 212–213

storage connected to grid with/without

, 211–212

Spot price process

, 73–77

Standard Binomial lattice

, 115

asset values to lattice nodes

, 122–123

computing Greeks

, 125–129

constructing and using

, 121

iterate backwards through lattice

, 124–125

lognormal mean

, 116

lognormal variance

, 116–121

option payoff at terminal nodes

, 123–124

values of constants by lattice

, 122

Standard Brownian motion

, 4

Standard grids

, 146

backwards iteration and early exercise

, 155–159

boundary conditions

, 150–151

computation of option values at given time instant

, 151–155

finite difference approximation

, 146–150

see also Log-transformed grids

Standard integrals

, 291–292

Standard normal distribution

, 4

Standard statistical results

, 265–273

Central Limit Theorem

, 265–266

Confidence Intervals

, 267–268

covariance

, 270–272

covariance matrix

, 272

law of large numbers

, 265

moment generating functions

, 272–273

variance

, 268–270

Standard Template Library (STL)

, 245

Standard Weibull distribution

, 93–98

Statistical distribution functions

Binomial distribution

, 284–289

empirical CDF

, 289–290

exponential distribution

, 281–282

lognormal distribution

, 280–281

normal (Gaussian) distribution

, 277–280

Poisson distribution

, 282–283

uniform distribution

, 275–277

Stochastic integral expectation

, 27

Stochastic integrals

, 22

expectation of stochastic integral

, 27

Fubini’s theorem

, 22–23

Ito’s isometry–correlated processes

, 25–27

Ito’s isometry–single process

, 23–25

Stochastic processes

, 1, 8, 145

for power spot price

, 205–206

Swing contract

, 213–214

System buy price (SBP)

, 190, 197–198

System long

, 190

System price

, 189

System sell price (SSP)

, 190, 197–198

System short

, 190

Taylor Series

, 294

Terminal nodes, option payoff at

, 123–124

Tesla

, 210

Three asset options

, 183–187

Tidal power

, 2

Time varying drift and volatility

, 8

Time-varying mean

, 76

Trinomial lattice

, 137–145

branching types for nodes in trinomial lattice

, 139

downward branching node

, 142–143, 145

mean reverting trinomial lattice

, 138

normal branching node

, 140–141, 145

pricing using lattice

, 144

upward branching node

, 141–142, 144–145

Two asset options

, 171

American options

, 178–182

European exchange options

, 171–173

European options on maximum or minimum

, 173–178

Two dimensions, Ito product and quotient rules in

, 11–14

Two-factor spot model

, 81–82

Uniform distribution

, 275–277

Uniform grid

, 156

Univariate cumulative normal function

, 55

Value at risk (VAR)

, 192

Vanilla European options, Greeks for

, 259–264

Vanilla options

, 47–70

Vanilla options, grid methods for

, 145

log-transformed grids

, 159–162

standard grids

, 146–159

stochastic process

, 145

Vanilla options, lattice methods for

, 115

constructing and using standard binomial lattice

, 121–129

Johnson binomial lattice

, 133–137

log transformed binomial lattice

, 129–133

standard binomial lattice

, 115–121

trinomial lattice

, 137–145

Variance

, 268

of n variables

, 269–270

one variable

, 268

Ornstein–Uhlenbeck process

, 19–21

three variables

, 269

two variables

, 268–269

Vector class

, 245–250

Vega function

, 60, 128–129, 263–264

Visual Basic

, 67

Volatility

, 5

historical

, 61–64

implied

, 61, 64–67

smile

, 64

Weibull distribution

, 93, 202–204

doubly truncated Weibull distribution

, 98–102

standard Weibull distribution

, 93–98

Wind contracts

, 200

contract valuation

, 206–209

simulation and calibration

, 204–205

stochastic process for power spot price

, 205–206

Weibull distribution

, 202–204

Wind generation

, 35–36

actual half hourly UK

, 39

actual half hourly UK summer

, 40

actual half hourly UK winter

, 40

current and previous day wind generation load factors

, 37

current and previous half hour wind generation load factors

, 37

simulated half hourly UK

, 40