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Abdul-Aziz.M Al-Yami Khurram Masood Case Study: Phase III Transmitter Receiver Simulation.

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Presentation on theme: "Abdul-Aziz.M Al-Yami Khurram Masood Case Study: Phase III Transmitter Receiver Simulation."— Presentation transcript:

1 Abdul-Aziz.M Al-Yami Khurram Masood Case Study: Phase III Transmitter Receiver Simulation

2 Physical Layer (PHY)  The standard specifies the following four PHYs: 1.An 868/915 MHz direct sequence spread spectrum (DSSS) PHY employing binary phase-shift keying (BPSK) modulation 2.An 868/915 MHz DSSS PHY employing offset quadrature phase- shift keying (O-QPSK) modulation 3.An 868/915 MHz parallel sequence spread spectrum (PSSS) PHY employing BPSK and amplitude shift keying (ASK) modulation 4.A 2450 MHz DSSS PHY employing O-QPSK modulation 9/23/20152

3 Frequency bands and data rates 9/23/20153

4 4 Frequency bands and data rates

5 5 PHY – 2.4 GHz Mode Each symbol (i.e. 4 bits) is represented by one of 16 32- chip sequences First 8 sequences are cyclic shifts of one 32-chip sequence, last 8 are cyclic shifts of another sequence (see next slide)

6 6 … … PHY – 2.4 GHz Mode

7 7 Chip modulation is offset-QPSK, in which the Q-branch signal is delayed by one chip period ( T c ) with respect to the I-branch signal Pulse shape is half-sine with period 2 T c

8 8 PHY – 2.4 GHz Mode Offset-QPSK with half-sine pulse shaping

9 9 PHY – 868/915 MHz Mode Raw bits are differentially encoded –XOR between current bit and the previous encoded bit Each coded bit mapped to a 15-chip PN sequence –Zero to 1 1 1 1 0 1 0 1 1 0 0 1 0 0 0 –One to 0 0 0 0 1 0 1 0 0 1 1 0 1 1 1 (zero’s complement) BPSK modulation with raised cosine pulse shaping with roll-off = 1.0 (100 % excess bandwidth)

10 2450 MHz DSSS PHY with O-QPSK  A 2450 MHz DSSS PHY employing O-QPSK modulation provides  250 kbps data rate 9/23/201510

11 BER vs SNR 9/23/201511

12 869/915 MHz DSSS PHY with BPSK  868/915 MHz BPSK PHY, provides  20 kb/s in the 868 MHz band and  40 kb/s in the 915 MHz band 9/23/201512

13 BER vs SNR 9/23/201513

14 Semi-analytic Simulation (No ISI) 9/23/201514 Delay Estimation

15 Semi-analytic Simulation (No ISI) 9/23/201515 Eye diagram

16 Semi-analytic Simulation (No ISI) 9/23/201516 Noise estimation

17 Semi-analytic Simulation (No ISI) 9/23/201517 BER vs SNR

18 Semi-analytic Simulation (with ISI) 9/23/201518 Delay Estimation

19 Semi-analytic Simulation (with ISI) 9/23/201519 Eye diagram

20 Semi-analytic Simulation (with ISI) 9/23/201520 Noise estimation

21 Semi-analytic Simulation (with ISI) 9/23/201521 BER vs SNR

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