A Necessary Moment Condition for the Fractional Functional Central Limit Theorem

Research output: Working paperResearch

Standard

A Necessary Moment Condition for the Fractional Functional Central Limit Theorem. / Johansen, Søren; Nielsen, Morten Ørregaard.

Department of Economics, University of Copenhagen, 2010.

Research output: Working paperResearch

Harvard

Johansen, S & Nielsen, MØ 2010 'A Necessary Moment Condition for the Fractional Functional Central Limit Theorem' Department of Economics, University of Copenhagen.

APA

Johansen, S., & Nielsen, M. Ø. (2010). A Necessary Moment Condition for the Fractional Functional Central Limit Theorem. Department of Economics, University of Copenhagen.

Vancouver

Johansen S, Nielsen MØ. A Necessary Moment Condition for the Fractional Functional Central Limit Theorem. Department of Economics, University of Copenhagen. 2010.

Author

Johansen, Søren ; Nielsen, Morten Ørregaard. / A Necessary Moment Condition for the Fractional Functional Central Limit Theorem. Department of Economics, University of Copenhagen, 2010.

Bibtex

@techreport{92d700b0e27111dfb6d2000ea68e967b,
title = "A Necessary Moment Condition for the Fractional Functional Central Limit Theorem",
abstract = "We discuss the moment condition for the fractional functional central limit theorem (FCLT) for partial sums of x(t)=¿^(-d)u(t), where d ¿ (-1/2,1/2) is the fractional integration parameter and u(t) is weakly dependent. The classical condition is existence of q>max(2,(d+1/2)-¹) moments of the innovation sequence. When d is close to -1/2 this moment condition is very strong. Our main result is to show that under some relatively weak conditions on u(t), the existence of q=max(2,(d+1/2)-¹) is in fact necessary for the FCLT for fractionally integrated processes and that q>max(2,(d+1/2)-¹) moments are necessary and sufficient for more general fractional processes. Davidson and de Jong (2000) presented a fractional FCLT where only q>2 finite moments are assumed, which is remarkable because it is the only FCLT where the moment condition has been weakened relative to the earlier condition. As a corollary to our main theorem we show that their moment condition is not sufficient.",
keywords = "Faculty of Social Sciences",
author = "S{\o}ren Johansen and Nielsen, {Morten {\O}rregaard}",
note = "JEL classification: C22",
year = "2010",
language = "English",
publisher = "Department of Economics, University of Copenhagen",
address = "Denmark",
type = "WorkingPaper",
institution = "Department of Economics, University of Copenhagen",

}

RIS

TY - UNPB

T1 - A Necessary Moment Condition for the Fractional Functional Central Limit Theorem

AU - Johansen, Søren

AU - Nielsen, Morten Ørregaard

N1 - JEL classification: C22

PY - 2010

Y1 - 2010

N2 - We discuss the moment condition for the fractional functional central limit theorem (FCLT) for partial sums of x(t)=¿^(-d)u(t), where d ¿ (-1/2,1/2) is the fractional integration parameter and u(t) is weakly dependent. The classical condition is existence of q>max(2,(d+1/2)-¹) moments of the innovation sequence. When d is close to -1/2 this moment condition is very strong. Our main result is to show that under some relatively weak conditions on u(t), the existence of q=max(2,(d+1/2)-¹) is in fact necessary for the FCLT for fractionally integrated processes and that q>max(2,(d+1/2)-¹) moments are necessary and sufficient for more general fractional processes. Davidson and de Jong (2000) presented a fractional FCLT where only q>2 finite moments are assumed, which is remarkable because it is the only FCLT where the moment condition has been weakened relative to the earlier condition. As a corollary to our main theorem we show that their moment condition is not sufficient.

AB - We discuss the moment condition for the fractional functional central limit theorem (FCLT) for partial sums of x(t)=¿^(-d)u(t), where d ¿ (-1/2,1/2) is the fractional integration parameter and u(t) is weakly dependent. The classical condition is existence of q>max(2,(d+1/2)-¹) moments of the innovation sequence. When d is close to -1/2 this moment condition is very strong. Our main result is to show that under some relatively weak conditions on u(t), the existence of q=max(2,(d+1/2)-¹) is in fact necessary for the FCLT for fractionally integrated processes and that q>max(2,(d+1/2)-¹) moments are necessary and sufficient for more general fractional processes. Davidson and de Jong (2000) presented a fractional FCLT where only q>2 finite moments are assumed, which is remarkable because it is the only FCLT where the moment condition has been weakened relative to the earlier condition. As a corollary to our main theorem we show that their moment condition is not sufficient.

KW - Faculty of Social Sciences

M3 - Working paper

BT - A Necessary Moment Condition for the Fractional Functional Central Limit Theorem

PB - Department of Economics, University of Copenhagen

ER -

ID: 22773767