Desain Framework Aplikasi sebagai Media Pendukung Simulation-based Learning dan Role-play pada Studi Adminstrasi Rekam Medis

Dewasa ini ada banyak media pembelajaran elektronik yang dikembangkan untuk mendukung suasana belajar dan peningkatan kualitas hasil belajar. Belajar adalah proses bagaimana memandang dan memahami dunia nyata disekitar kita. Dengan demikian dalam proses belajar membutuhkan media belajar yang dapat mendukung kualitas hasil pembelajaran. Dengan perkembangan teknologi informasi dapat dikembangkan media belajar dengan kerangka aplikasi yang dapat digunakan untuk membangun suasana belajar rekam medis berbasis simulasi. Simulasi merupakan suatu teknik untuk praktek dan pembelajaran yang dapat diterapkan untuk berbagai disiplin ilmu. Simulasi dapat memperkuat pengalaman secara mendalam dengan meniru aspek substansi dunia nyata secara penuh interaktif Dalam mengembangkan ProSIARS (Prototype Untuk Simulasi Adminstrasi Rekam Medis Rumah Sakit) untuk simulasi pendidikan administrasi rekam medis rumah sakit. Dengan ProSIARS dapat di bangun suasana belajar berbasis simulasi yang dinamis dan visualisasi yang merepresentasikan suasana waktu dan prilaku kerja yang sesungguhnya. ProSIARS dapat digabung dengan bahan ajar, bahan bimbingan dan alat bantu perangkat lunak pendukung lainnya, bahkan bisa digabungkan dengan antar disiplin ilmu yang berkaitant. Secara tradisonal dalam pendidikan administrasi rekam medis procedural dan pengetahuan diperoleh melalui konsep teoritis dan model magang. Arsitektur perangkat lunak memiliki kontribusi secara mandiri yang dikembangkan untuk mewakili konten pendidikan rekam medis (misalnya model simulasi, bahan bimbingan) dan rekayasa perangkat lunak (missal, antar muka).Penulis menyediakan templet antarmuka dan kumpulan modul aplikasi untuk disusun menjadi kerangka kebutuhan simulasi pendidikan administrasi rekam medis. TAM (Technology Acceptance Model) sebagai kerangka uji penerimaan ProSIARS sebagai media simulas

Studi Tentang Pemanfaatan Software Manajemen Konstruksi Oleh Kontraktor Di Banjarmasin

Proses pengadaan bangunan secara tradisional (tradisional building procurement system) terdiri dari tahap pelelangan, tahap pelaksanaan dan tahap evaluasi. Setiap tahapan tersebut adalah berupa tindakan manajerial yang memerlukan banyak perhitungan, perencanaan dan pertimbangan. Para pengembang perangkat lunak membuat bermacam-macam perangkat lunak agar dapat membantu mempermudah dan mempercepat setiap kegiatan.Tujuan penelitian ini adalah untuk mempelajari sejauh mana kontraktor-kontraktor di Banjarmasin memanfaatkan perangkat lunak manajemen kontruksi dalam menjalankan bisnis kontruksi yang kemudian dihubungkan dengan kinerja mereka.Penelitian ini terdiri dari 5 tahap yaitu tahap studi literatur, interview pada kontraktor tentang komputerisasi Perusahaan, pengumpulan data tentang kinerja setiap kontraktor, analisis data dan pengambilan kesimpulan.Beberapa hal yang dapat ditarik dari penelitian ini adalah :Jumlah komputer yang dipakai sedikit (rata-rata 3,1 unit/kontraktor)Jenis paket yang dipakai adalah jenis yang umum seperti word, Excel dan Lotus,Sedikit sekali kontraktor yang memakai komputer untuk menggambar

Synthèses, études structurales par spectroscopie de vibration, diffraction de rayons x sur poudre, analyse Rietveld de perchlorates covalents et ioniques

MONTPELLIER-BU Sciences (341722106) / SudocSudocFranceF

Anhydrous perchlorato complexes of palladium(II): Pd(ClO 4 ) 2 , (ClO 2 ) 2 Pd(ClO 4 ) 4 , and (NO 2 ) 2 Pd(ClO 4 ) 4 . Syntheses and structural analyses

International audienceChlorine trioxide (Cl2O6) reacts with PdCl2 to yield "ClO2Pd(ClO4)3" which is, in fact, an equimolar mixture of Pd(ClO4)2 and (ClO2)2Pd(ClO4)4. The chloryl salt decomposes under vacuum to give Pd(ClO4)2. (NO2)2Pd(ClO4)4 0.5 NO2ClO4 is prepared using Pd(NO3)20.5 (H2O, HNO3) as the starting salt. Excess NO2ClO4 sublimes easily and pure (NO2)2Pd(ClO4)4 is obtained. Pd(ClO4)2 and (NO2)2Pd(ClO4)4 crystallize poorly; however, a P21/m space group is proposed for the latter. A complete assignment of vibrational modes, and DFT calculations, show that Pd(ClO4)2 is monomeric with chelating bidentate [ClO4] groups and Pd is in a square planar environment. In nitryl and chloryl salts, individual anions (Pd(ClO4)2-4), where unidentate [ClO4] groups interact partially with the cation or the Pd core, were characterized.Key words: palladium(II), chlorine trioxide, perchlorato complexes, chelating bidentate, vibrational spectroscopy, DFT calculations, powder X-ray diffraction

The bridging bidentate perchlorato group in ReO3(ClO4), ReO3(ClO4)Cl2O6 and Sb2Cl6(O)(OH)(ClO4), a vibrational analysis

International audienceRaman and infrared analysis of the new compounds: ReO3(ClO4), an ivory-white solid, and (ClO2)xReO3(ClO4)1+x (x < or = 1), an orange-red chloryl salt, showed that bridging bidentate [ClO4] and terminal ReO3 groups are present in both complexes. Vibrational data on [ClO4] in ReO3(ClO4) were compared to those obtained experimentally and by DFT calculation on a bridging bidentate [ClO4] in Sb2Cl6(O)(OH)(ClO4)

Crystalline and Molecular Structures of Anhydrous Lanthanide PerchloratesLn(ClO4)3withLn=La, Ce, Pr, Sm, Eu, Ho, Er, Tm, and Lu

International audienceThe anhydrous perchloratesLn(ClO4)3, where ClO4is coordinated toLnatoms (Ln=La, Ce, Pr, Sm, Eu, Ho, Er, Tm, and Lu) crystallize in two distinct groups of isostructural species. Rietveld refinements show that from lanthanum to thulium (low temperature form), the crystal system is hexagonal (space groupP63/m,Z=2) with 9.400(3) Å<a<9.201(1) Å and 5.918(1) Å<c<5.563(1) Å. The Rietveld refinement converged toRF=0.033,Rp=0.029, andRwp=0.053 for Eu(ClO4)3. The channeled structure is built on the basis of slightly distorted tricaped trigonal Eu centered prisms of nine oxygen atoms belonging to nine tridentate [ClO4]. Thullium (high temperature form) and lutetium crystallize in trigonalR3cunit cells (Z=6) with, respectively,a=8.13286(2) Å,c=24.1586(1) Å, anda=8.11559(4) Å,c=24.0047(1) Å. For Lu(ClO4)3,RF,Rp, andRwpwere 0.039, 0.046, and 0.061, respectively. Its molecular structure consists of infinite layers of Lu atoms in a tricaped trigonal antiprism surrounding of oxygens. Layers and linkages between layers are ensured by simultaneously bridging and chelating tridentate [ClO4]

Thermal Behavior and X-ray Powder Diffraction Structures of Two Polymorphic Phases of Anhydrous Yb(ClO 4 ) 3

International audienceThe chemical dehydration of Yb(ClO4)3·H2O by chlorine trioxide leads to a low-temperature form (LT) of anhydrous perchlorato complexes of ytterbium(III). By controlled thermolysis of this compound, a high-temperature form (HT) of Yb(ClO4)3 was obtained. Its thermal decomposition leads to the corresponding oxide chloride, Yb3O4Cl, as a fine powder. The structures of the two polymorphic phases of Yb(ClO4)3 were determined by Rietveld analysis of high-resolution X-ray powder data (BL16, ESRF). The LT form crystallizes in a hexagonal P63/m unit cell (a = 9.219 70(7) Å, b = 5.535 18(3) Å, and Z = 2). For the HT form, the space group is R3c (a = 8.124 06(3) Å, b = 24.0818(1) Å, and Z = 6). The thermal decomposition pathway was also determined with the aid of TGA measurements and Raman spectroscopy

The Virtual Fashion Studio - An experiment in design innovation and future retail experiences

The Virtual Fashion Studio is a novel interactive experience with virtual mirrors and digital fashion design. The research and design objectives were to demonstrate and create: - future interactions with retail products and environments - emerging technologies be adopted by retailers to sustain physical visitation - new opportunities for emerging fashion designers Project Context: There are a number of Virtual Mirrors being promoted on the web and only a few retailers using them in an effective way. This is mostly due to the current technical limitations with effective scanning technology and the public setting. For example, the only real scenario that a body scanner and 3D garment visualisation could currently work is when the shopper is in a private fitting room and able to view the virtual garment overlaid on their own mirrored body shape unencumbered. Otherwise the body scanner will include the clothing worn as part of the body shape and size of the shopper and the digital garments will then be applied terribly distorted. No fashion designer wants to see their designs look broken and out of shape. Similarly, no shopper wants to see themselves clothed with oversized and unflattering outfits. Project Scope: Researched, designed and developed over only 3 months by a small, efficient team of a lead designer, programmer, 3D artist, and graphic designer. With the support of technical assistants for procuring and installing equipment. We experimented in perfecting a more natural real-time experience with the digitised and 3D garments… especially working on complex solutions for cloth physics and rendering. The research team collaborated with emerging fashion designers who demonstrated an openess to the experimental nature of the project. We worked with them to digitise existing patterns for the 3D Artist and programmer to later model and integrate into the system and UI. A team of 4 fashion design students from QUT, soon began to design garments custom to the system once they had become confident with the new digital tools we trained them to use. These students also quickly recognised how these new tools could very easily become essential prototyping tools for fashion designers. Design Innovations: The Research and development team innovated in the following areas and activities: - Design and development of user interface and interactive system - Techniques, tools and processes for the digitization of fashion garments (patterns) into 3D models - Animations and 3D modelling of all environmental components, mannequins and garments - Cloth physics, real-time renderings and effects for natural movement and interaction with digital garments - Designs and Specifications for Workshop and Photo Studio presentation - Technical specifications, equipment list for purchase and installation Project Context: The Virtual Fashion Studio installations are displayed in the Wintergarden Complex on the Queens Street Mall in Brisbane, Queensland. The Queen Street Mall is the most successful pedestrian mall in Australia with over 26 million visitors each year. This project was first proposed to executives at JLL, a company that manages the Wintergarden Complex. The design team was awarded funding total of $264,000 for commercial research from ISPT to develop and install the works in the Wintergarden complex. These unique installations will be deployed across multiple retail sites managed by ISPT and JLL across Australia