Studi Komparasi Penyelesaian Wasiat Wajibah di Indonesia dan Malaysia

A will is a legal document that outlines how a person's assets will be distributed after their death.   In some countries, the distribution of assets is regulated by law and not solely based on the wishes of the deceased. This is known as a mandatory will, which limits the amount that can be given to certain parties to no more than one-third of the total assets. Indonesia and Malaysia are countries that regulate the matter of mandatory wills. The purpose of this journal is to identify the similarities and differences in the provisions of mandatory wills in Indonesia and Malaysia, to determine the Islamic legal basis for mandatory wills, and to examine the development of mandatory wills in both countries.

Neuromorphic Hardware Design

In this thesis, a novel technique to embed synaptic plasticity in neuromorphic hardware is proposed named as Frequency Dependent Synaptic Plasticity. This technique provides an alternate interpretation for plasticity which was conventionally modeled as weight value. In the proposed model of neuromorphic hardware, plasticity is implemented in frequency domain by considering a synaptic connection performing bandpass filtering operation. Currently most of the neuromorphic hardware are based on time domain based plasticity techniques. The proposed model attempts to contribute and suggest an out of the box solution for neurocomputational applications. It has been established through this thesis that the proposed model is biologically plausible in terms of implementation of different phenomena observed in a biological brain such as rate-encoding by Class I type of neuron, decoding of rate-encoded information by selective triggering at post synaptic side, resonance aware synaptic plasticity, population coding, role and interpretation of tuning curve, and frequency based neuronal communication. The proposed hardware operates in analog domain which is closer to the operational domain of brain as compared to its digital counterpart. This thesis also proposes a novel architecture to embed population coding on neuromorphic hardware. Further, it is explained in this thesis that a synaptic junction based on proposed model has a non linear transfer function which omits the requirement of hidden layer in classifying non-linear problems. This will allow applications to use least possible resources, employing input and output nodes only, as compared to a network based on linear weight values.