2008 |
20 | EE | Frank Fiedler,
Jonathan Jedwab,
Matthew G. Parker:
A Framework for the Construction ofGolay Sequences.
IEEE Transactions on Information Theory 54(7): 3114-3129 (2008) |
19 | EE | Frank Fiedler,
Jonathan Jedwab,
Matthew G. Parker:
A multi-dimensional approach to the construction and enumeration of Golay complementary sequences.
J. Comb. Theory, Ser. A 115(5): 753-776 (2008) |
2007 |
18 | EE | Jonathan Jedwab,
Matthew G. Parker:
There are no Barker arrays having more than two dimensions.
Des. Codes Cryptography 43(2-3): 79-84 (2007) |
17 | EE | Jonathan Jedwab,
Matthew G. Parker:
Golay complementary array pairs.
Des. Codes Cryptography 44(1-3): 209-216 (2007) |
16 | EE | S. E. C. Crouch,
James A. Davis,
Jonathan Jedwab:
The Design of the IEEE 802.12 Coding Scheme.
IEEE Transactions on Communications 55(10): 1907-1917 (2007) |
2006 |
15 | EE | Jonathan Jedwab,
K. Yoshida:
The peak sidelobe level of families of binary sequences.
IEEE Transactions on Information Theory 52(5): 2247-2254 (2006) |
14 | EE | Frank Fiedler,
Jonathan Jedwab:
How Do More Golay Sequences Arise?
IEEE Transactions on Information Theory 52(9): 4261-4266 (2006) |
2004 |
13 | EE | Jonathan Jedwab:
A Survey of the Merit Factor Problem for Binary Sequences.
SETA 2004: 30-55 |
12 | EE | Peter Borwein,
Kwok-Kwong Stephen Choi,
Jonathan Jedwab:
Binary sequences with merit factor greater than 6.34.
IEEE Transactions on Information Theory 50(12): 3234-3249 (2004) |
1999 |
11 | | James A. Davis,
Jonathan Jedwab:
Peak-to-mean power control in OFDM, Golay complementary sequences, and Reed-Muller codes.
IEEE Transactions on Information Theory 45(7): 2397-2417 (1999) |
1998 |
10 | | James A. Davis,
Jonathan Jedwab,
Miranda Mowbray:
New Families of Semi-Regular Relative Difference Sets.
Des. Codes Cryptography 13(2): 131-146 (1998) |
1997 |
9 | EE | James A. Davis,
Jonathan Jedwab:
A Unifying Construction for Difference Sets.
J. Comb. Theory, Ser. A 80(1): 13-78 (1997) |
1995 |
8 | | K. T. Arasu,
James A. Davis,
Jonathan Jedwab:
A Nonexistence Result for Abelian Menon Difference Sets Using Perfect Binary Arrays.
Combinatorica 15(3): 311-317 (1995) |
1994 |
7 | EE | Jonathan Jedwab,
Chris J. Mitchell,
Fred Piper,
Peter R. Wild:
Perfect binary arrays and difference sets.
Discrete Mathematics 125(1-3): 241-254 (1994) |
1993 |
6 | | James A. Davis,
Jonathan Jedwab:
A Note on New Semi-Regular Divisible Difference Sets.
Des. Codes Cryptography 3(4): 379-381 (1993) |
5 | | K. T. Arasu,
James A. Davis,
Jonathan Jedwab,
Surinder K. Sehgal:
New Constructions of Menon Difference Sets.
J. Comb. Theory, Ser. A 64(2): 329-336 (1993) |
4 | | Jonathan Jedwab:
Barker Arrays I: Even Number of Elements.
SIAM J. Discrete Math. 6(2): 294-308 (1993) |
3 | | Jonathan Jedwab,
Sheelagh Lloyd,
Miranda Mowbray:
Barker Arrays II: ODD Numer of Elements.
SIAM J. Discrete Math. 6(2): 309-328 (1993) |
1992 |
2 | | Jonathan Jedwab:
Generalized Perfect Arrays and {Menon} Difference Sets.
Des. Codes Cryptography 2(1): 19-68 (1992) |
1 | | Jonathan Jedwab,
Sheelagh Lloyd:
A Note on the Nonexistence of Barker Sequences.
Des. Codes Cryptography 2(1): 93-97 (1992) |