NewEvery arXiv paper, its researchers & institutions — mapped.
papers

Publications (17)

quant-ph2015

Device-independent quantum key distribution based on measurement inputs

Ramij Rahaman, Matthew G. Parker, Piotr Mironowicz +1

quant-ph2016

Mixed graph states

Constanza Riera, Ramij Rahaman, Matthew G. Parker

cs.IT2005

Spectral Orbits and Peak-to-Average Power Ratio of Boolean Functions with respect to the {I,H,N}^n Transform

Lars Eirik Danielsen, Matthew G. Parker

quant-ph2013

Exclusivity structures and graph representatives of local complementation orbits

Adan Cabello, Matthew G. Parker, Giannicola Scarpa +1

cs.IT2005

Generalised Bent Criteria for Boolean Functions (I)

Constanza Riera, Matthew G. Parker

quant-ph2014

Quantum secret sharing based on local distinguishability

Ramij Rahaman, Matthew G. Parker

math.CO2009

Directed Graph Representation of Half-Rate Additive Codes over GF(4)

Lars Eirik Danielsen, Matthew G. Parker

math.CO2006

On the Classification of All Self-Dual Additive Codes over GF(4) of Length up to 12

Lars Eirik Danielsen, Matthew G. Parker

math.CO2013

On Graphs and Codes Preserved by Edge Local Complementation

Lars Eirik Danielsen, Matthew G. Parker, Constanza Riera +1

math.CO2009

Interlace Polynomials: Enumeration, Unimodality, and Connections to Codes

Lars Eirik Danielsen, Matthew G. Parker

quant-ph2008

From Graph States to Two-Graph States

Constanza Riera, Stephane Jacob, Matthew G. Parker

math.CO2006

On Pivot Orbits of Boolean Functions

Constanza Riera, Lars Eirik Danielsen, Matthew G. Parker

cs.IT2009

Iterative Decoding on Multiple Tanner Graphs Using Random Edge Local Complementation

Joakim Grahl Knudsen, Constanza Riera, Lars Eirik Danielsen +2

quant-ph2001

Quantum Factor Graphs

Matthew G. Parker

cs.IT2013

A complementary construction using mutually unbiased bases

Gaofei Wu, Matthew G. Parker

cs.IT2005

Generalised Bent Criteria for Boolean Functions (II)

Constanza Riera, George Petrides, Matthew G. Parker

math.CO2009

Edge Local Complementation and Equivalence of Binary Linear Codes

Lars Eirik Danielsen, Matthew G. Parker