A. Hiperlan/2
B. Hiperlan/1
C. Hiperaccess
D. Hiperlink
Explanation: The European Telecommunication Standards Institute (ETSI) has broadly classified into 3 categories of Broadband Radio Networks specifically HIPERLAN/2, HIPERACCESS and HIPERLINK.
A. True
B. False
C.
D.
Explanation: Among all categories of Broadband Radio Networks including HIPERLAN/2, HIPERACCESS and HIPERLINK, HIPERLAN/2 is ultimately responsible for engaging data transmission between broadband core networks and transportable computing devices. HIPERACCESS provides efficient transmissions to households and small business zones.
A. Less cost
B. Interoperable
C. Managed quality of service
D. Reduced bit rate
Explanation: Broadband Radio Access Network functionality ultimately aims to improve specifications which provide effective functionality at minimum cost. Their key requirement includes reduced cost, interoperability, managed Quality of Service and enhanced bit rates.
A. Hiperaccess
B. Hiperlink
C. Hiperlan/2
D. Hiperlan/1
Explanation: HIPERLINK is exclusively utilized in infrastructure technologies considering its immense speed capability. Though HIPERLAN/ 2 and HIPERACCESS comprise greater speed functionality, they are utilized in multimedia applications and residential technologies respectively.
A. True
B. False
C.
D.
Explanation: Frequency allocation is generally implemented for its application in space services, terrestrial and astronomy services. BRAN can never allocate frequency bands standardized by multiple regulatory bodies especially considering CEPT SE 19 standards, since it is exceptionally designed for harmonized standards only.
A. 28 ghz
B. 32 ghz
C. 48 ghz
D. 26 ghz
Explanation: HIPERACCESS standard involves certain lower and higher frequencies like 32 GHz, 28 GHz and 26 GHz (millimeter wave frequency zones). This standard excellently utilizes TDMA/TDM access methodology in entire frequency spectrum.
A. True
B. False
C.
D.
Explanation: HIPERACCESS utilizes point to multipoint methodology efficiently, where the entire transmission methodology is implemented utilizing distinct varieties of one to multiple connections. This transmission method is broadly implemented in telephony and wireless internet schemes.
A. 27 mb
B. 18 mb
C. 8 mb
D. 10 mb
Explanation: An equalizer is effectively utilized to compensate Inter Symbol Interference (ISI) within single carrier modem, whenever symbol rate succeeds standard numerical value of 10 MB. However, similar dilemma arises even though narrow beamed antennas are utilized in this process.
A. Quadrature amplitude modulation (qam)
B. Orthogonal frequency-division multiplexing (ofdm)
C. Binary phase shift keying (bpsk)
D. Gaussian minimum shift keying (gmsk)
Explanation: QAM is best suited since it provides higher distance within adjacent points, promoting noise immunity and a single demodulator system detects amplitude and phase by minimizing system complexity.