In the PICASSO, a system for the facial caricature generation, as the basic mechanisms to extract the individuality features of faces and to deform the features have been already introduced, it is expected to realize an autonomous mechanism to evaluate facial caricatures. The evaluation should be based on the framework of human visual cognition. In the PICASSO, some visual illusions such as the Wundt-Fick illusion and the Ponzo illusion for example, are applied to evaluate the shapes of the facial parts such as eyebrows, nose, mouth and face contour, in the deformation process. In many cases, as well-deformed caricatures are evaluated to be successful, it is confirmed that the utilization of the visual illusion is effective to evaluate the results of caricatures. In this paper, some experimental results are presented together with the definition of the evaluation measures and the further subjects.

Although the perception of gloss is based on human visual perception, some methods for measuring glossiness, in contrast to human ability, have been proposed involving plane surfaces. Glossiness defined in these methods, however, does not correspond with psychological glossiness perceived by the human eye over the wide range from relatively low gloss to high gloss. In addition, the change in the incident angle causes a deviation in the measurement of glossiness. A new method for measuring glossiness is proposed in this study. For the new definition of glossiness Gd, the brightness function is utilized. We also extract the value of smoothness of the object's surfaces for use as a factor of glossiness. The measuring equipment consists of a light source, an optical system and a personal computer. Glossiness Gd of paper and plastics is measured with the use of this equipment. In all samples, a strong correlation, with a correlation coefficient of more than 0.97, has been observed between Gd and psychological glossiness Gph. The variance of measured glossiness due to the change in the incident angle of light is small in comparison with that of conventional methods. Based on these findings, it has been found that this method is useful for measuring glossiness of plane objects in the range from relatively low gloss to high gloss.

The main interest of this paper is the theoretical analysis of a recursive periodically time varying digital filter. The generalized transfer function of a recursive periodically time varying digital filter was obtained from its difference equation. It was proved that by making use of the generalized transfer function, we can not only derive the input and output relationship of a recursive periodically time varying digital filter easily but also obtain its equivalent structure effectively. An interesting property of a recursive periodically time varying digital filter was also derived by making use of its generalized transfer function. Moreover, it was completed in this paper the investigation of the generalized transfer functions and impulse responses of other periodically time varying models, including an input sampling polyphase model and an output sampling polyphase model. Meanwhile, the multirate Quadrature Mirror Filter bank system was proved by the authors to be a periodically time varying system. Several examples were also provided to illustrate the effectiveness of using the generalized transfer function to obtain the equivalent structure of a recursive periodically time varying digital filter.

A further study on a VLSI system compiler, named VEGA (VLSI Embodiment for General Algorithms), is presented. It maps a general digital signal processing algorithm onto a neo-systolic array, which is a VLSI oriented multiprocessor array. Highly complicated mapping problem is divided into subproblems such as modularization, operation grouping, processor placement, scheduling, control logic synthesis, and mask pattern generation. In this paper, the modularization technique is proposed which homogenizes all the operations of the processing algorithm to multiply-add operations. The processor placement algorithm to map processing algorithm onto a neo-systolic array so as to minimize data transfer time is also proposed.

Some new circuit configurations for dual-input integrators and differentiators are proposed. The use of a multiplier device around the Operational Amplifier (OA) yields electronic tunability of their time-constant (To) by a Control Voltage (Vx). Experimental results in support of theoretical design and analysis are included.

In this paper, four simple nonlinear circuits with time-varying resistors are analyzed. These circuits consist of only four elements; a inductor, a capacitor, a diode and a time-varying resistor and are a kind of parametric excitation circuits whose dissipation factors vary with time. In order to analyze chaotic phenomena observed from these circuits a degeneration technique is used, that is, diodes in the circuits are assumed to operate as ideal switches. Thereby the Poincar maps are derived as one-dimensional maps and chaotic phenomena are well explained. Moreover, validity of the analyzing method is confirmed theoretically and experimentally.

Asynchronous Transfer Mode (ATM) is an information transport technique that well supports Broadband ISDN (B-ISDN). One unsolved problem to the perfection of ATM networks is to provide a testing environment that conforms to some standardized network management scheme. From this point of view, remotely controlled virtual path testing is considered in this paper. Remotely controlled virtual path testing should be executed through the standardized Telecommunications Management Network (TMN) model, which employs the OSI systems management concept as the basis of information exchange. Thus, this paper addresses the two issues that arise when OSI systems management standards are applied to virtual path testing. One issue is to define relevant information models. The other issue is to provide test resources with a concurrency control mechanism that guarantees a consistent test environment without causing deadlocks. To resolve these issues, technical requirements are clarified for the remote control of test resources. Next, alternatives to the concurrency control mechanism are shown and compared through computer simulations. A method of defining information models is then proposed. The proposed method ensures the easy storage and retrieval of intermediate test results as well as permitting the effective provision of concurrency control for test resources. An application scenario is also derived. The scenario shows that tests can be executed by using standardized communication services. These results confirm that virtual path testing can be successfully achieved in conformance with the OSI systems management standards.

This paper proposes a new admission control strategy for ATM networks, which is based on the simulation approach and regression results. Instead of using many traffic descriptors, in our strategy only numbers of connections of different types are needed in performing admission control. The strategy is evaluated from different points of view, real-time, safety, policing and its efficiency which is referred as allowed utilized bandwidth. Since the admission criteria is developed in a form of regression model, the computation of performance for accepting a new connection is quick and easy. Using the confidence region in statistics to represent the admission criteria, a conservative estimation of performance can be achieved. Besides, this strategy is quite independent, thus can be compatible with most policing functions. Finally, its bandwidth utilization is found to be above 0.54. However, the success of this strategy still depends on the reality of input traffic model. Whenever the traffic can be clearly described, the proposed strategy can be easily and precisely applied. Therefore, we also build a traffic model for different type of traffic including constant-bit-rate (CBR), variable-bit-rate (VBR) and bursty traffic. The application of the proposed strategy to different multiplexing schemes, like priority queues and polling system, etc., should be further studied. Considering different level of performance requirement for different type of traffic, which should aid the bandwidth utilization of this strategy, is also an interesting research issue.

This letter describes a new input and cross-point buffering matrix switching architecture for high-speed ATM switching systems. The proposed switch has input queuing buffers at each input port, and small size buffers for output port arbitration at each cross-point. These two types of buffers share loads using a simple and high-speed retry algorithm. Hardware size is only half that of conventional cross-point buffering switches. In addition, the switch achieves high-throughput at a condition that the switching speed matches the input and output port speed. This switch is expected to enable the development of high-speed ATM switching systems with each port supporting speeds in excess of 1Gbit/s.

The current telecommunication network is structured in two layers: The intelligent layer that includes Intelligent Network (IN) nodes and Operation, Administration and Maintenance (OAM) nodes, and the transport layer that includes Network Elements (NEs). The transport layer carries user Information (Iu) from end-users as well as control and OAM Information (Ic&o) from IN/OAM nodes. The quick deployment of new IN services and OAM capabilities that will need (a) flexibility and easy management, and (b) an effective handling method for searching the huge amount of data among distributed databases, will be two requirements to be satisfied. Integrating various types of Ic&o into a unique Ic&o transport network and using ATM technique as a transport technique satisfies partly the requirement (a). To completely meet both requirements, this paper proposes the following solutions:(a) Intelligent layer connections and transport layer connections should be managed independently: The necessary mapping between the Logical Destination Address (LDA) that represents the logical address of the physical entity where data are routed, combined with the Quality Of Service (QOS) type, and the ATM connection IDentifier (ID), that is to say the Virtual Channel Identifier/ Virtual Path Identifier (VCI/VPI), is provided by specific nodes (the Ic&o network Management Nodes (Ic&o MNs)) belonging to an intermediate layer, i.e., the Ic&o network management layer.(b) The widely distributed aspect of the databases also needs a very effective data handling method. This paper proposes to implement a Distributed Directory System (DDS) into both intelligent nodes and Ic&o MNs.In order to apply the DDS function to 2 functional levels, the following items are studied: First, the possible mapping of DDS functions into the intelligent node functions is proposed. Second, this paper gives an interaction scenario between intelligent nodes and Ic&o MNs, to translate the LDA/QOS type into VPI/VCI. Finally, the analysis of the mapping of LDA/QOS type into VCI/VPI at the ATM level shows that the Ic&o network based on VP backbone offers the best compromise between flexibility, complexity and cost.

Free choice nets are a class of Petri nets, which can represent the substantial features of systems by modeling both choice and concurrency. And in the modelling and design of a large number of concurrent systems, live and safe free choice nets (LSFC nets) have been explored their structural characteristics. On the other hand, state machine decomposable nets (SMD nets) are a class of Petri nets which can be decomposed by a set of strongly connected state machines (S-decomposition). State machine allocatable nets (SMA nets) are a well-behaved class of SMD nets. Of particular interest is the relation between free choice nets and SMA nets such that a free choice net has a live and safe marking if and only if the net is an SMA net. That is, the structure of an LSFC net is an SMA net. Recently, the structure of SMA net has been completely characterized by the authors based on an S-decomposition. In other words, a necessary and sufficient condition for a net to be an SMA net is obtained in terms of the net structure where synchronization between strongly connected state machine components (S-components) has been clarified. Unfortunately, it requires tremendous amount of time and spaces to decide a given net to be an SMA net by applying the condition directly. Moreover, there exist no efficient algorithm to decide the liveness and safeness of a given SMA net that lessens the usefulness of decomposition techniques. In this paper, we consider efficient polynomial order algorithms to decide whether a given net is a live and safe SHA net.

When we study time-domain electromagnetic fields, we frequently use the finite-difference time-domain (FD-TD) method. In this paper, we discuss errors of the FD-TD method and present the optimum mesh spacings in the FD-TD method when the three mesh spacings are different.

We have developed a new functional MOS transistor called Neuron MOSFET (abbreviated as neuMOS or νMOS) which simulates the function of biological neurons. The new transistor is capable of executing a weighted sum calculation of multiple input signals and threshold operation based on the result of weighted summation, all in the voltage mode at a single transistor level. By utilizing its neuron-like very powerful functional capability, various circuits essential for multiple-valued logic operation have been designed using quite simple circuit configurations. The circuit designs for data conversion between the multivalued and binary logic systems and for generating universal literal functions are described and their experimental verifications are presented. One of the most important features of νMOS multivalued lagic circuit is that the circuit operates basically in the voltage mode, thus greatly reducing the power dissipation as compared to the conventional current mode circuitry. This is indeed most essential in implementing multivalued logic systems in ultra large scale integration. Another important feature of νMOS design is in its flexibility of implementing logic functions. The functional form of a universal literal function, for instance, can be arbitrarily altered by external signals without any modifications in its hardware configuration. A circuit representing multiple-valued multithreshold functions is also proposed.

In this paper we propose a new timing optimization technique for multi-level networks by restructuring multiple nodes simultaneously. Multi-output subcircuits on critical paths are extracted and resynthesized so that the delays of the paths are reduced. The complete design space of the subcircuits is captured by Boolean relations, which allow us to perform more powerful resynthesis than previous approaches using don't cares. Experimental results are reported to show the effectiveness of the proposed technique.

This paper presents a design of a new multiple-valued matching VLSI processor for high-speed reasoning. It is useful in the application for real-time rule-based systems with large knowledge bases which are programmable. In order to realize high-speed reasoning, the matching VLSI processor can perform the fully parallel pattern matching between an input data and rules. On the based of direct multiple-valued encoding of each attribute in an input data and rules, pattern matching can be described by using only a programmable delta literal. Moreover, the programmable delta literal circuit can be easily implemented using two kinds of floating-gate MOS devices whose threshold voltages are controllable. In fact, it is demonstrated that four kinds of threshold voltages in a practical floating-gate MOS device can be easily programmable by appropriately controlling the gate, the drain and the source voltage. Finally, the inference time of the quaternary matching VLSI processor with 256 rules and conflict resolution circuits is estimated at about 360 (ns), and the chip area is reduced to about 30 percent, in comparison with the equivalent binary implementation.

Future broadband ATM networks are expected to accommodate various kinds of multi-media services with different traffic characteristics and quality of service (QOS) requirements. However, it is very difficult to control traffic by conventional mechanisms in this complex traffic environment. As an alternative approach, a multilayer perceptron neural network model is proposed as an intelligent control mechanism like "a traffic control policeman" in order to perform ATM connection admission control. This proposed neural control model is analyzed by computer simulations in a homogeneous and heterogeneous traffic environment and the result shows the effectiveness of this intelligent control mechanism, compared with that of an analytical method.

This paper studies multidimensional linear periodically shift-variant digital filters (LPSV filters). The notion of a generalized multidimensional transfer function is presented for LPSV filters. The frequency characteristic of the filters is discussed in terms of this transfer function. Since LPSV filters can decompose the spectrum of an input signal into some spectral partitions and rearrange the spectrum, LPSV filters can serve as a frequency scrambler. To show the effect of multidimensional frequency scramble, 2-D LPSV filters are designed based on the 1-D Parks-McClellan algorithm. The resultant LPSV filters divide the input spectrum into some components that are permuted and possibly inverted with keeping the symmetric of the spectrum. Experimental results are presented to illustrate the effectiveness of frequency scramble for real images.

A new class of the universal representation for the positive integers is proposed. The positive integers are divided into infinite groups, and each positive integer n is represented by a pair of integers (p,q), which means that n is the q-th number in the p-th group. It is shown that the new class includes the message length strategy as a special case, and the asymptotically optimal representation can easily be realized. Furthermore, a new asymptotically and practically efficient representation scheme is proposed, which preserves the numerical, lexicographical, and length orders.

This paper describes a mixed mode circuit simulation by the direct and relaxation-based methods with dynamic network partitioning. For the efficient circuit simulation by the direct method, the algorithms with circuit partitioning and latency technique have been studied. Recently, the hierarchical decomposition and latency and their validities have been researched. Network tearing techniques enable independent analysis of each subnetwork except for the local datum nodes. Therefore, if the local datum nodes are also torn, each subnetwork is separated entirely. Since the network separation is based on relaxation approach, the implementation of the separation technique in the circuit simulation by the direct method corresponds to performing the mixed mode simulation by the direct and relaxation-based methods. In this paper, a dynamic "network separation" technique based on the tightness of the coupling between subnetworks is suggested. Then, by the introduction of dynamic network separation into the simulator SPLIT with hierarchical decomposition and latency, the mixed mode circuit simulator, which selects the direct method or the relaxation method and determines the block size of the latent circuit dynamically and suitably, is constructed.

In this paper, a design method is described for very low sensitivity fully-balanced narrow-band band-pass switched-capacitor filters (SCF's) whose worst-case sensitivities of the amplitude responses become zero at every reflection zero. The proposed method is based on applying the low-pass to high-pass transformation, the pseudo two-path technique and the capacitance-ratio reduction technique to very low sensitivity low-pass SC ladder filters. A design example of the band-pass SCF with a quality factor Q250 is given to verify the proposed method. The remarkable advantages of this approach are very low sensitivity to element-value variations, a small capacitance spread, a small total capacitance, and clock-feedthrough noise immunity inside the passband.