The rapid development of educational informationization has put forward new requirements for teaching mode. Blended teaching under the background of information technology has become the focus of higher education teaching reform, and the research on the influencing factors of the implementation effect of blended teaching has attracted more and more researchers 'attention. This study aims to investigate students' views on the effect of blended teaching from the perspective of college students who once participated in blended teaching activities. This paper conducts a theoretical study on the influencing factors of blended teaching, and conducts an empirical study on the influencing factors of blended teaching effect by means of questionnaires. The results show that personal interests and attitudes and curriculum design are the main factors affecting the effectiveness of blended teaching. Moreover, teachers' professional image, curriculum design and Teaching Platform Functions all have a significant impact on students' interest and attitude in participating in blended teaching. Finally, this paper puts forward some suggestions to strengthen the "student-centered" teaching consciousness, optimize the "student-centered" teaching design, attach importance to the improvement of teachers' professional image, and select a suitable blended teaching platform.
Image stitching is widely used in computer vision where it is often necessary to first manually specify the "Left to Right" or "Right to Left" transformation. To solve the problem of evaluating which stitching mode is better, on the basis of studying of SIFT algorithm's image stitching, this paper calculates the polygons after perspective transformation by analyzing two methods of homography matrices and proposes an measurement that refers to the degree of blurring caused by the oblique angle on the long side of the transformed polygon rectangle as stretching degree. It was used as one of the evaluation index for the quality of image stitching. The experimental results show that this measure can more automatic and robust to choose the better mode of image stitching.
With the rapid development of multi-core processor technology, parallelization has become the main approach for modern applications to improve throughput and responsiveness. However, the increasing number of processors also poses a challenge to the scalability of parallel program performance. In a traditional single-threaded program, all data is exclusively occupied by one thread, so the performance optimization of the program mainly focuses on the algorithm logic and implementation skills of the program; while in the multi-core system environment, most multi-threaded applications have performance scalability bottleneck. That is, the application cannot make full use of the performance advantages of multiple cores, and its performance decreases as the number of processors increases. The key factor restricting the improvement of performance scalability is often the synchronization mechanism of multi-core systems. Reader-writer lock is a synchronization mechanism that divides the operation to access shared resources or data into reader lock and writer lock, which enables effective cooperation between multiple different threads and ensures that applications can operate in a multicore environment with logical consistency. However, from another perspective, the reader-writer lock mechanism also limits the scalability of concurrent execution of applications. In application scenarios with different reader/writer ratios, the performance of reader-writer locks also differs, restricting the scalability of the performance of applications in multicore systems. Therefore, in a multi-core environment, it is of practical significance to implement a new type of readerwriter lock with scalable performance. This new reader-writer lock may automatically adjust the lock acquisition path according to the read/write ratio of the application scenario. In view of the shortcomings of the current reader-writer locks, this paper proposes a simple, efficient, optimized, and easy-to-implement adaptive reader-writer lock mechanism and interface which is suitable for multi-core environments, as well as application scenarios with different read/, write ratios. This mechanism gives full play to the high performance of multi-core systems and automatically adjusts lock acquisition according to different application scenarios. There are only minor changes to the application by replacing the original reader-writer lock instance and API interface function calls with an adaptive reader-writer lock instance and the API interface function calls for the adaptive reader-writer lock. The mechanism enables good scalability and improves the concurrency and scalability of reader-writer locks in multi-core systems in application scenarios with different read/write ratios. It will be conducive to meeting the growing demand for low latency, high throughput, and high concurrency processors.
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