ElectricityIncreaseInPredictionTask

Seed 1

This is the electricity consumption recorded in Kilowatt (kW) in city A.

Suppose that there is a heat wave in city A from 2013-05-28 12:00:00 for 2 hours in city A, leading to excessive use of air conditioning, and 4 times the usual electricity being consumed.

Types of context: ['Covariate information', 'Future information']

Capabilities: ['Instruction Following']


Figure

Seed 2

This is the electricity consumption recorded in Kilowatt (kW) in city A.

Suppose that there is a heat wave in city A from 2012-10-09 18:00:00 for 3 hours in city A, leading to excessive use of air conditioning, and 5 times the usual electricity being consumed.

Types of context: ['Covariate information', 'Future information']

Capabilities: ['Instruction Following']


Figure

Seed 3

This is the electricity consumption recorded in Kilowatt (kW) in city A.

Suppose that there is a heat wave in city A from 2013-10-03 12:00:00 for 1 hour in city A, leading to excessive use of air conditioning, and 4 times the usual electricity being consumed.

Types of context: ['Covariate information', 'Future information']

Capabilities: ['Instruction Following']


Figure

Seed 4

This is the electricity consumption recorded in Kilowatt (kW) in city A.

Suppose that there is a heat wave in city A from 2013-12-19 00:00:00 for 1 hour in city A, leading to excessive use of air conditioning, and 3 times the usual electricity being consumed.

Types of context: ['Covariate information', 'Future information']

Capabilities: ['Instruction Following']


Figure

Seed 5

This is the electricity consumption recorded in Kilowatt (kW) in city A.

Suppose that there is a heat wave in city A from 2012-05-13 16:00:00 for 2 hours in city A, leading to excessive use of air conditioning, and 3 times the usual electricity being consumed.

Types of context: ['Covariate information', 'Future information']

Capabilities: ['Instruction Following']


Figure