behavior analysis
Recently Published Documents


TOTAL DOCUMENTS

4569
(FIVE YEARS 1150)

H-INDEX

63
(FIVE YEARS 9)

2022 ◽  
Author(s):  
Amarie Carnett ◽  
Leslie Neely ◽  
Siobhan Gardiner ◽  
Marie Kirpatrick ◽  
John Quarles ◽  
...  

Abstract Virtual reality technologies hold promise for the therapy based on the science of applied behavior analysis as they can replicate real life environments and allow the user to role-play in a simulated environments. This literature review synthesizes the research base evaluating the effects of behavior analytic interventions delivered via virtual reality (VR) technology to teach adaptive and functional skills for individuals with autism. Method: We conducted a systematic search in four databases followed by a reference search for those articles by the systematic database search. We also conducted a quality review using the Evaluative Method for Evaluating and Determining Evidence-Based Practices in Autism (Reichow, 2008). Results: We identified 24 studies with a majority of the studies (n = 18; 75%) utilizing group experimental or quasi-experiment research design, and the remaining (n = 6; 25%) utilizing single-case research design. Of those studies, ten targeted vocational related skills, seven targeted functional behaviors (e.g., problem behavior treatment, hypersensitivity, phobias), four targeted safety skills (e.g., driving, airplane travel, pedestrian safety), two studies targeted general functional skills, and one targeted exercise engagement. Of the 24 studies, 12 met the quality criteria to be classified as “strong” or “adequate” and can offer evidence on the integration of VR technology into the practice of behavior analysis for teaching adaptive or functional skills. Discussion: Taken as a whole, the three studies (Cox et al., 2017; Hu & Han, 2019; Wade et al., 2013) identified as “strong” quality studies were conducted by three different research teams, at three different locations, with 74 different participants and meet the qualifications to be considered a promising practice.


2022 ◽  
Vol 23 (1) ◽  
pp. 95-115
Author(s):  
Wan Nurhidayah Ibrahim ◽  
Mohd Syahid Anuar ◽  
Ali Selamat ◽  
Ondrej Krejcar

Botnet is a significant cyber threat that continues to evolve. Botmasters continue to improve the security framework strategy for botnets to go undetected. Newer botnet source code runs attack detection every second, and each attack demonstrates the difficulty and robustness of monitoring the botnet. In the conventional network botnet detection model that uses signature-analysis, the patterns of a botnet concealment strategy such as encryption & polymorphic and the shift in structure from centralized to decentralized peer-to-peer structure, generate challenges. Behavior analysis seems to be a promising approach for solving these problems because it does not rely on analyzing the network traffic payload. Other than that, to predict novel types of botnet, a detection model should be developed. This study focuses on using flow-based behavior analysis to detect novel botnets, necessary due to the difficulties of detecting existing patterns in a botnet that continues to modify the signature in concealment strategy. This study also recommends introducing Independent Component Analysis (ICA) and data pre-processing standardization to increase data quality before classification. With and without ICA implementation, we compared the percentage of significant features. Through the experiment, we found that the results produced from ICA show significant improvements.  The highest F-score was 83% for Neris bot. The average F-score for a novel botnet sample was 74%. Through the feature importance test, the feature importance increased from 22% to 27%, and the training model false positive rate also decreased from 1.8% to 1.7%. ABSTRAK: Botnet merupakan ancaman siber yang sentiasa berevolusi. Pemilik bot sentiasa memperbaharui strategi keselamatan bagi botnet agar tidak dapat dikesan. Setiap saat, kod-kod sumber baru botnet telah dikesan dan setiap serangan dilihat menunjukkan tahap kesukaran dan ketahanan dalam mengesan bot. Model pengesanan rangkaian botnet konvensional telah menggunakan analisis berdasarkan tanda pengenalan bagi mengatasi halangan besar dalam mengesan corak botnet tersembunyi seperti teknik penyulitan dan teknik polimorfik. Masalah ini lebih bertumpu pada perubahan struktur berpusat kepada struktur bukan berpusat seperti rangkaian rakan ke rakan (P2P). Analisis tingkah laku ini seperti sesuai bagi menyelesaikan masalah-masalah tersebut kerana ianya tidak bergantung kepada analisis rangkaian beban muatan trafik. Selain itu, bagi menjangka botnet baru, model pengesanan harus dibangunkan. Kajian ini bertumpu kepada penggunaan analisa tingkah-laku berdasarkan aliran bagi mengesan botnet baru yang sukar dikesan pada corak pengenalan botnet sedia-ada yang sentiasa berubah dan menggunakan strategi tersembunyi. Kajian ini juga mencadangkan penggunakan Analisis Komponen Bebas (ICA) dan pra-pemprosesan data yang standard bagi meningkatkan kualiti data sebelum pengelasan. Peratusan ciri-ciri penting telah dibandingkan dengan dan tanpa menggunakan ICA. Dapatan kajian melalui eksperimen menunjukkan dengan penggunaan ICA, keputusan adalah jauh lebih baik. Skor F tertinggi ialah 83% bagi bot Neris. Purata skor F bagi sampel botnet baru adalah 74%. Melalui ujian kepentingan ciri, kepentingan ciri meningkat dari 22% kepada 27%, dan kadar positif model latihan palsu juga berkurangan dari 1.8% kepada 1.7%.


Sign in / Sign up

Export Citation Format

Share Document