We propose a wideband CELP-type speech coder at 16 kb/s based on a mel-generalized cepstral (MGC) analysis technique. MGC analysis makes it possible to obtain a more accurate representation of spectral zeros compared to linear predictive (LP) analysis and take a perceptual frequency scale into account. A major advantage of the proposed coder is that the benefits of MGC representation of speech spectra can be incorporated into the CELP coding process. Subjective tests show that the proposed coder at 16 kb/s achieves a significant improvement in performance over a 16 kb/s conventional CELP coder under the same coding framework and bit allocation. Moreover, the proposed coder is found to outperform the ITU-T G. 722 standard at 64 kb/s.

Wideband wireless access based on direct sequence code division multiple access, called coherent multi-rate W-CDMA in this paper, designed for next generation mobile communications systems is introduced. It employs inter-cell asynchronous operation with a fast cell search algorithm, orthogonal multi-spreading factor (SF) forward links, and pilot symbol assisted coherent reverse and forward links. Inter-cell asynchronous cell site operation facilitates the continuous deployment of the system from outdoors to indoors. An orthogonal multi-SF forward link allows flexible offering of different multi-rate services to users without losing orthogonality. Gains in the radio link capacity and coverage are obtained from the use of coherent Rake combining and fast transmit power control (TPC) in both forward and reverse links. Computer simulation and field experiment results of the coherent multi-rate W-CDMA radio link performance are presented. Also presented are interference cancellation and adaptive antenna array techniques that can significantly improve the link capacity and coverage.

To enhance the anti-fading technique of direct sequence code division multiple access (DS/CDMA) schemes in land mobile radio communication systems, a two-dimensional RAKE reception (2D-RAKE) scheme in beam space digital beam forming (BS-DBF) antenna configuration is proposed. The proposed scheme is applied to cellular base stations where the received signals in the reverse link are relieved from multipath fading by means of enhanced RAKE combining in spacial and temporal domains. Fundamental performance in the reverse link under multipath fading environments is investigated by computer simulation applying a wideband propagation channel model.

Experimental results of 1. 92 Mbps data transmission over a 20 MHz wideband DS-CDMA (W-CDMA) mobile radio link under frequency selective multipath fading are presented. 1. 92 Mbps data were transmitted using an orthogonal multicode transmission scheme. The combined use of antenna diversity reception, RAKE combining, and concatenated channel coding is applied to improve transmission performance. Laboratory and field experimental results demonstrated the possibility of 2 Mbps data transmission in a real fading environment.

This letter proposes and investigates a method of estimating the direction of arrival (DOA) of wideband signals such as spread spectrum signals, in a multipath channel. The DOA estimation method can reduce the effect of signal distortion due to bandwidth of signals by creating a spatial spectrum wihch satisfies the sampling theory in the time domain. The DOA estimate calculated from this spatial spectrum is robust against signal distortion due to multipath. Computer simulations numerically evaluate the proposed method. In comparison with conventional MUSIC algorithm, the proposed method achieves superior performance in a multipath channel.

TPC (transmission power control) can compensate the near-far problem and so is a key technology of DS (direct sequence) -CDMA (code divison multiple access) systems. There are two kinds of TPC. One is closed loop and the other is open loop. In practical systems, both methods are used to compensate the variation in reception signal level. However, adoption of one simple TPC scheme is preferable from the viewpoint of transceiver configuration at the BS (base station) and MSs (mobile stations). Reception signal variation in wide-band DS-CDMA systems is shallower and we have the possibility of using only open loop as the TPC method. To evaluate the TPC accuracy of open loop, it becomes important to estimate the lower bound of TPC error because TPC error directly influences user capacity. This paper evaluates the lower bound of open loop TPC error by a theoretical analysis and laboratory tests; both results agree well. It is found that as the average power difference between paths increases, the lower bound of open loop TPC error increases. Ir is also found if the number of paths increases, the lower bound of open loop TPC error decreases. If the number of paths is 10 and the power difference between the nearest paths is less than 0.2 dB, the lower bound of open loop TPC error is larger than 1 dB. When the TPC error is larger than 1 dB, the reduction in user capacity is above 30%.

The authors report on a 40-Gbit/s superdynamic decision IC fabricated with 0.12-µm GaAs MESFETs. The key to attaining high-speed decision IC is not only high-speed flip-flop circuits but also wideband input and output buffer circuits. 40 Gbit/s is the fastest operating speed of decision ICs fabricated with GaAs MESFETs.

This paper describes the design, fabrication, and performance of a C- to Ku-band 2 W balanced amplifier multi-chip module employing an MMIC/Super-MIC/MIC configuration. In this module, single-ended amplifiers, quadrature couplers, and pulsed-drive circuits are fabricated on MMICs, Super-MICs, and MICs, respectively, which show different features in fabrication, performance, size, and cost. With the use of the distinguished features of MMICs, Super-MICs, and MICs, the multi-chip module with high performance, small size, and low cost has been achieved. The MMIC/Super-MIC/MIC-combined module would be a candidate for a variety of multi-chip modules with stringent requirements for performance, size, and cost.

Many efforts are currently underway to design wideband mobile communication systems. In this letter, we clarify the received signal level characteristics for wideband mobile radio channels in line-of-sight (LOS) microcells. We conduct several urban-area field experiments to measure the received signal levels for various receiver bandwidths from 300 kHz to 30 MHz and the power delay profile. The experimental results show that the fading depth of the received signal decreases as the normalized rms delay spread, defined as the product of receiver bandwidth and rms delay spread, increases. These results are useful in designing wideband microcell systems for urban areas.

For Nakagami-Rice fading environment which seems to become a principle propagation environment in the next generation wideband and high-capacity mobile systems such as personal communications, we have previously proposed an approximated evaluation scheme for wideband digital transmission characteristics such as errors due to intersymbol interference of multipath waves. We called the scheme 'Equivalent Transmission-Path (ETP) Model.' In this paper, through a discussion about more general equivalent propagation channel expressions, we clarify a theoretical foundation of the ETP model and extend the model to have an ability of expression of instantaneous fading condition varying with time. Also the appropriateness of the instantaneous expression is examined by a computer simulation analysis. Based on this model, statistics of link quality and service availability in Nakagami-Rice fading environments are discussed.

Currently, many efforts are underway to design wideband mobile communication system. The system is one of alternative of Future Public Land Mobile Telecommunication Systems (FPLMTS). In this paper, we clarify received signal level characteristics for wideband mobile radio channels in line-of-sight (LOS) microcells. The results from urban-area field experiments, where received signal levels for various receiver bandwidths and power delay profiles were measured, show that the depth of fading of the-received signal decreases as normalized RMS delay spread, defined as the product of receiver bandwidth and RMS delay spread, increases. These results are useful in designing wideband microcell systems for urban areas.

A wideband monolithic lossy match power amplifier having an LPF/HPF-combined interstage network has been developed. As an interstage network, it employs an LPF (Low-Pass Filter) including FET's drain capacitance, an HPF (High-Pass Filter) comprised of a dc blocking capacitor and a drain bias circuit, and a constant-resistance network for wideband impedance matching and transformation. With the use of this interstage network, a wide bandwidth of 6 to 16.5 GHz and an output power of 30.40.9 dBm have been achieved.

A wideband high power amplifier design using a novel band-pass filter with FET's parasitic reactances has been developed. The feature of this design is in that it can provide wide bandwidth and high gain of high power amplifiers. Furthermore, the lower cutoff frequency and bandwidth can be varied independently. With the use of this design, a Ku-band two-stage high power amplifier having a bandwidth of 18% has achieved a linear gain of 9.751.75 dB, a saturated output power of greater than 37 dBm, and a power-added efficiency of greater than 10.4%.

Several research institutions in Europe have developed set-ups for wide-band mobile radio communication measurements. The performance and evaluation has been coordinated in the framework of the cooperation in the field of scientific and technical research within the committees COST 207 COST 231. New parameters have been defined to improve the insight into performance limits of digital radio communication systems which are caused by propagation phenomena. The definitions of these new parameters are presented in the paper. Channel sounders developed in Norway, Denmark, the United Kingdom, Switzerland, France and Germany are described. They are based on considerably different technical principles for evaluation and recording of the measured results. A few results gained in European measurement campaigns are also presented.

An integrated multiplexer in intermediate node is analyzed. The multiplexer is modeled as a system with multiple synchronous servers (channels) and having two kinds of customers. Between the two, one is wideband (WB) and the other is narrowband (NB); they are queueable with the same deterministic service time. The WB customer is given higher priority of channel access than the NB. To incorporate the delay constraint of WB, we use a simple instant discarding scheme for WB. As a result, the system states defined just after the beginning of a slot form an one-dimensional embedded Markov chain. This makes the analysis computationally tractable. The performance measures such as queue length distribution, average blocking probability, and average waiting time are obtained, particularly, the waiting time distribution. Some interesting numerical examples are discussed. Simulation results are also provided to help verify the validity of analysis.