European-Style Forward Derivatives for Telecom Commodities

Bandwidth commodity markets are developing, and (dark) fiber swaps are not uncommon. Derivatives, especially derivatives of forward contracts, are likly to be important for risk management and hedging. However there is currently no method available to price contingent claims where the underlying ass...

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Main Authors: CHELIOTIS, Giorgos, KENYON, C.
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Language:English
Published: Institutional Knowledge at Singapore Management University 2001
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Online Access:https://ink.library.smu.edu.sg/sis_research/1276
https://worldcat.org/isbn/9783831126989
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spelling sg-smu-ink.sis_research-22752018-08-15T09:06:24Z European-Style Forward Derivatives for Telecom Commodities CHELIOTIS, Giorgos KENYON, C. Bandwidth commodity markets are developing, and (dark) fiber swaps are not uncommon. Derivatives, especially derivatives of forward contracts, are likly to be important for risk management and hedging. However there is currently no method available to price contingent claims where the underlying asset is a claim on some part of a network and non-storable. To date, geographical (no-)arbitrage has not been included in the pricing of contingent claims on forwards. We present a method for pricing European-style contingent claims on forwards using both the usual no-arbitrage conditions and geographical no-arbitrage. We make appropriate allowances for the non-storability of the underlying asset (point-to-point) bandwidth and the storability of forward-based contingent claims. We give an example of pricing a call option on a forward contract with a range of underlying network topologies based on realistic forward prices. For this example, a call option on a 10 month forward, we find the option price to be relatively insensitive to the network topology (less than 10%) for a range of strike prices. We speculate that this is due to the long date leading to geographical arbitrage effects being reduced to log-Normality by the Central Limit Theorem. This would imply that increasing differences might be observed for shorter-dated contingent claims. We conclude by discussing the steps required in forward curve modeling to move to any-style contingent claims on network capacity. 2001-09-01T07:00:00Z text https://ink.library.smu.edu.sg/sis_research/1276 https://worldcat.org/isbn/9783831126989 Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Computer Sciences Management Information Systems
institution Singapore Management University
building SMU Libraries
continent Asia
country Singapore
Singapore
content_provider SMU Libraries
collection InK@SMU
language English
topic Computer Sciences
Management Information Systems
spellingShingle Computer Sciences
Management Information Systems
CHELIOTIS, Giorgos
KENYON, C.
European-Style Forward Derivatives for Telecom Commodities
description Bandwidth commodity markets are developing, and (dark) fiber swaps are not uncommon. Derivatives, especially derivatives of forward contracts, are likly to be important for risk management and hedging. However there is currently no method available to price contingent claims where the underlying asset is a claim on some part of a network and non-storable. To date, geographical (no-)arbitrage has not been included in the pricing of contingent claims on forwards. We present a method for pricing European-style contingent claims on forwards using both the usual no-arbitrage conditions and geographical no-arbitrage. We make appropriate allowances for the non-storability of the underlying asset (point-to-point) bandwidth and the storability of forward-based contingent claims. We give an example of pricing a call option on a forward contract with a range of underlying network topologies based on realistic forward prices. For this example, a call option on a 10 month forward, we find the option price to be relatively insensitive to the network topology (less than 10%) for a range of strike prices. We speculate that this is due to the long date leading to geographical arbitrage effects being reduced to log-Normality by the Central Limit Theorem. This would imply that increasing differences might be observed for shorter-dated contingent claims. We conclude by discussing the steps required in forward curve modeling to move to any-style contingent claims on network capacity.
format text
author CHELIOTIS, Giorgos
KENYON, C.
author_facet CHELIOTIS, Giorgos
KENYON, C.
author_sort CHELIOTIS, Giorgos
title European-Style Forward Derivatives for Telecom Commodities
title_short European-Style Forward Derivatives for Telecom Commodities
title_full European-Style Forward Derivatives for Telecom Commodities
title_fullStr European-Style Forward Derivatives for Telecom Commodities
title_full_unstemmed European-Style Forward Derivatives for Telecom Commodities
title_sort european-style forward derivatives for telecom commodities
publisher Institutional Knowledge at Singapore Management University
publishDate 2001
url https://ink.library.smu.edu.sg/sis_research/1276
https://worldcat.org/isbn/9783831126989
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