1 |
최주평, 이원철, "군 전술 통신에서의 주파수 공동사용기반 인지엔진 플랫폼 연구", 한국전자파학회논문지, 27(7), 2016년 7월.
|
2 |
최주평, 이원철, "주파수 공동사용을 위한 최적의 후보대역 선정방안 연구", 한국전자파학회논문지, 25(1), 2014년 10월.
|
3 |
CISCO, Cisco visual networking index: Global mobile data traffic forecast update, 2015-2020. Feb. 2016.
|
4 |
FCC, "Connecting America: The national broadband plan", Mar. 2010.
|
5 |
NTIA, "Second interim progress report on the ten-year plan and timetable", NTIA Progress Report, Oct. 2011.
|
6 |
PCAST, "Report to the president realizing the full potential of government-held spectrum to spur economic growth", Jul. 2012.
|
7 |
ECO, "WAPECS: Flexibility vs. harmonization", CEPT Workshop 2011, Feb. 2011.
|
8 |
Qualcomm, "Authorized shared access: An evolutionary spectrum access for sustainable economic growth and consumer benefit", Presentation at the WG FM-17, May 2011.
|
9 |
E. Faussurier, "Licensed Shared Access(LSA): Regulatory aspects", Sep. 2013.
|
10 |
CEPT ECC, "Licensed Shared Access(LSA)", ECC Report 205, Feb. 2014.
|
11 |
ETSI, "Electromagnetic compatibility and radio spectrum matters(ERM); System reference document(SRdoc); frequency band under licensed shared access regime", ETSI TR 103 113 v1.1.1, Jul. 2013.
|
12 |
W. Cardoso, "LSA-technology architecture, standardization and regulatory update", May 2014.
|
13 |
FCC 14-49, "Further notice of proposed rulemaking", Apr. 2014.
|
14 |
미래창조과학부, 무선데이터 트래픽 통계, 2016년 6월.
|
15 |
http://grouper.ieee.org/groups/dyspan/5/
|
16 |
J. Stine, S.-W. Darcy, and M. Sherman, "IEEE 1900.5 enabled whitespace database architecture evolution," Dyspan 2014, Sep. 2014.
|
17 |
O. Holland, IEEE DySPAN-SC and IEEE 1900 Standards Working Groups: Update for IEEE TCCN Meeting at IEEE ICC 2016, May 2016.
|
18 |
IEEE Std 1900.5-2011, IEEE standard for policy language requirements and system architectures for dynamic spectrum access systems, Jan. 2012.
|
19 |
L. Grande, H. Zhu, J. Stine, M. Sherman, and M. M. Kokar, "IEEE DySPAN 1900.5 efforts to support spectrum access standardization", 2013 IEEE Military Communications Conference, Sep. 2013.
|
20 |
G. F. Elmasry, "The progress of tactical radios from legacy systems to cognitive radios", IEEE Communications Magazine, vol. 10, issue 10, Oct. 2013.
|
21 |
F. Perich, "Policy-based network management for NeXt generation spectrum access control", Dyspan 2007, Apr. 2007.
|
22 |
SRI Project No. 16763, Cognitive Policy Radio Language (CoRaL), A Language for Spectrum Policies XG Policy Language, ver. 0.1, Apr. 2007.
|
23 |
Mark McHenry, "Adaptive spectrum technology: Findings from the DARPA XG project software radio summit", Feb. 2007.
|
24 |
M. McHenry, K. Steadman, A. E. Leu, and Ed Melick, "XG DSA radio system", Dyspan 2008, Oct. 2008.
|
25 |
H. Asadi, H. Volos, M. M. Marefat, and T. Bose, "Metacognitive radio engine design and standardization", IEEE Journal on Selected Areas in Communications, vol. 33, iss. 4, Apr. 2015.
|
26 |
H. Asadi, H. Volos, M. M. Marefat, and T. Bose, "Metacognition and the next generation of cognitive radio engines", IEEE Communications Magazine, vol. 54, iss. 1, Jan. 2016.
|