239 research outputs found
EVALUASI PROSEDUR PENAGIHAN PAJAK TERHADAP PENYITAAN TUNGGAKAN PAJAK DI KPP PRATAMA SUKOHARJO
ABSTRACT
AN EVALUATION ON TAX COLLECTION PROCEDURE IN THE TAX ARREARS
CONFISCATION IN KPP PRATAMA SUKOHARJO
Haris Budi Setyawan
NIM F3407038
Tax is a dues paid to the State (that can be compulsory) that may be
outstanding by the taxpayer according to the regulation, without any gains, that
can be designated directly and the benefit of it is to fund the general expense
relevant to the task of State reigning.
The objectives of this final project are to find out the procedure of
tax collection (confiscation and auction) by the tax collection section occurring in
Sukoharjo Pratama Tax Service Office and to find out the implementation of tax
collection on the tax arrears liquifaction in Sukoharjo Pratama Tax Service Office.
This final project writing was done using Library research, observation,
and data processing methods. Considering the result of analysis it can be found
that Sukoharjo Pratama Tax Service Office had conducted the collection and
confiscation corresponding to the procedure determined by the Tax Directorate
General.
The writer recommends the Sukoharjo Pratama Tax Service Office to keep
implementing the procedure and rule of collection and confiscation that has been
applied to the taxpayers in arrear because they are has been consistent with the
rule determined by the Tax Directorate General.
Keywords: Tax Collection, Confiscation, Auctio
On the spatial and temporal coherence of wireless vehicular short range channels
We consider spatial and temporal coherence of the vehicle–to–vehicle (V2V) wireless communication channel with focus on a suburban residential highway. The dominant reflectors in such an environment are vehicles passing in the adjacent lane and houses
along the road. Instead of treating the reflectors as point targets, the V2V short range propagation environment requires partitioning of the illuminated reflector side into
sufficiently small tiles. The channel transfer function is obtained as a superposition of specular reflections from the tiles, the line–of–sight (LOS) component, and the ground reflection. The tile size is selected to ensure that the ratio of the tile area to the tile–to–receiver distance satisfies the far field conditions. The reflected power is described by the tile radar cross section (RCS). The bistatic physical optics RCS model is adapted to account for the tile’s orientation with respect to the ray geometry. We apply the superposition model to the numerical analysis of two general scenarios
for a 22MHz channel in the 2.4GHz band. The first scenario considers a single vehicle reflector passing in the lane adjacent to the V2V communication pair. Both the vector network analyzer (VNA) experiments and the tiling model analysis illustrate that repositioning of the reflector, the transmitter, or the receiver by a few centimeters results in change of the signal power by several decibels. The second scenario analysis characterizes the channel coherence statistics for the
suburban residential highway. We consider the V2V single lane LOS and non–LOS geometries, where in the latter the receiver is shadowed by a large vehicle. The reflectors are both houses and vehicles passing in the opposite direction. The measure of channel coherence is the normalized spatial covariance calculated by correlating transfer functions corresponding to feasible receiver position pairs and performing spatial smoothing. The area of feasible receiver positions is divided into contiguous squares
whose size ensures wide sense quasi–stationarity within the square. Irrespective of direction the correlation remains high and a typical sedan roof usually does not provide sufficient spacing to obtain average inter–antenna correlation lower than 0.5. The upper bound on coherence time extends over the transmission time of multiple packets for systems in the considered band, and does not allow for usable time diversity.Ph.D.Includes bibliographical referencesIncludes vitaby Haris Krem
Hubungan Antara Sikap Terhadap Perilaku Permisif Seksual dengan Kecenderungan Voyeurisme pada Remaja
KAPASITAS LENTUR BALOK BETON TULANGAN BAMBU PETUNG VERTIKAL DENGANTAKIKAN SEJAJAR TIPE “U” LEBAR 1 CM DAN 2 CM PADA TIAP JARAK 5 CM
Bambu merupakan salah satu alternatif pengganti tulangan baja untuk kebutuhan konstruksi rumah tinggal sederhana. Bambu merupakan sumber daya alam yang dapat diperbarui yang keberadaannya mudah ditemukan di berbagai wilayah dan ramah lingkungan. Tujuan penelitian ini adalah untuk mengetahui kuat lentur balok tulangan bambu petung vertikal dengan takikan sejajar tipe “U” lebar 1 cm dan 2 cm dengan jarak antar takikan 5 cm. Penelitian ini meliputi tahap persiapan, tahap pengujian pendahuluan, tahap pembuatan benda uji, dan tahap pengujian kuat lentur. Dimensi bambu yang digunakan sebagai tulangan adalah 1650 mm x20 mm x5 mm. Dimensi balok beton dalam penelitian ini adalah 1700mm x110 mm x150 mm. Hasil yang diperoleh dari penelitian ini adalah momen nominal pengujian balok tulangan bambu petung dengan takikan 1 cm sebesar 366,44 kg.m, momen nominal pengujian balok tulangan bambu petung takikan 2 cm sebesar 353,70 kg.m dan momen nominal pengujian balok tulangan baja sebesar 568,19 kg.m. Kata kunci: kapasitas lentur, tulangan bambu, balok beton tulangan bambu, takika
Explosive indentation study of B4C-TiAlx composites fabricated by the dipping exothermic reaction process
The aim of this study is to fabricate a high volume fraction B4C-reinforced intermetallic matrix composite by the dipping exothermic reaction process and investigate the shock impact damage response of composites by explosive indentation experiment. It has been shown that the final microstructure of the dipping exothermic reaction process-fabricated composite can be tailored by treatment of the constituent powders and post heat treatment. The hardness and impact damage resistance of the fabricated composites were evaluated.This work is supported by grants (No. N62649-03-0007) from AROFE(US Army
Research Office Far-East). The author thanks Drs. J. W. McCauley of ARL, Sean Yu and
R. Olesinskiof AROFE
Increasing the Performance of Passive Communication with Ambient Light
Most wireless communication technologies have been using the Radio Frequency (RF) spectrum for decades. Due to the popularity of the Internet of Things (IoT), the RF spectrum has started to become densely populated. Researchers have begun to explore other bands of the electromagnetic spectrum that can be utilized as a communication media. One of the promising choices is the visible light spectrum.Visible Light Communication (VLC) refers to the wireless communication technology that utilizes the visible light spectrum. This spectrum is thousands of times wider than the Radio Frequency (RF) spectrum and is license-free. In VLC, data is transmitted by turning a light source on and off. However, not every light source can be controlled. Passive light sources such as the sun provide an immense amount of light that can be used for wireless communication if we can develop ways to modulate them. One of the researches that use ambient light to create a wireless link is LuxLink. LuxLink uses liquid crystal shutters to control passive light sources and provides low energy, reliable, and flicker-free (safe) communication. This thesis addresses several problems that the current LuxLink system has.We present LuxLink+, an extension of LuxLink that provides two main improvements. Firstly, the data rate of the system is relatively low (80~bps). To increase the data rate, we provide a thorough analysis of the system’s bandwidth. Afterward, we modify the modulation technique, which increases the data rate to 1000~bps at a range of 1.5~m.Secondly, the system has a static data rate, which means that the system cannot adapt its data rate to changes in the environment. We implement a rate adaptation algorithm that can change its data rate accordingly. LuxLink+ improves the average throughput of the system by up to 85 percent compared to LuxLink.Electrical Engineering | Embedded System
Performance investigation of an integrated wind energy system for co-generation of power and hydrogen
In this paper, a wind turbine energy system is integrated with a hydrogen fuel cell and proton exchange membrane electrolyzer to provide electricity and heat to a community of households. Different cases for varying wind speeds are taken into consideration. Wind turbines meet the electricity demand when there is sufficient wind speed available. During high wind speeds, the excess electricity generated is supplied to the electrolyzer to produce hydrogen which is stored in a storage tank. It is later utilized in the fuel cell to provide electricity during periods of low wind speeds to overcome the shortage of electricity supply. The fuel cell operates during high demand conditions and provides electricity and heat for the residential application. The overall efficiency of the system is calculated at different wind speeds. The overall energy and exergy efficiencies at a wind speed 5 m/s are then found to be 20.2% and 21.2% respectively
Multigeneration system exergy analysis and thermal management of an industrial glassmaking process linked with a Cu–Cl cycle for hydrogen production
A multigeneration system for hydrogen production linked with a glassmaking process via thermal management is examined in this study. The exhaust gas is interconnected with a Rankine cycle and the copper-chlorine (Cu–Cl) cycle for hydrogen production. The present system consists of a steam Rankine cycle, Cu–Cl cycle with multistage compression, double-stage organic Rankine cycle, and multi-effect desalination system. A Cu–Cl cycle based on the four-step model is employed with the proposed system. The useful system outputs are electricity, hydrogen, and fresh water. The simulation software packages utilized in the analysis and modeling are Engineering Equation Solver and Aspen Plus. The energy efficiency of the overall system is 36.5% while 38.1% is the exergy efficiency. The parametric studies are conducted to investigate the system performance. In addition, the effects of exhaust gas variables, such as flow rate, temperature, and pressure are examined to investigate the system performance
RELATIONSHIP BETWEEN LEVEL KNOWLEDGE AND SUPERVISION TO THE BEHAVIOR OF APD APPLICATION IN CONSTRUCTION WORKERS PT WIKA BETON BOYOLALI
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