Rate Control Optimization Algorithm of Ubiquitous Power Sensor Network Tester Based on Multimedia

With more and more video application scenarios and increasing complexity, the popularization of multimedia information and the urgent need to update wireless sensor networks have led to the emergence and development of wireless multimedia sensor networks. *is paper focuses on the rate control optimization algorithm of multimedia-based ubiquitous power sensor network, which is mainly studied from three aspects: constructing algorithm verification platform based on multimedia technology, performance analysis, and optimization of rate control optimization algorithm based on multimedia technology. An algorithm verification platform is established based on multimedia technology. *is article uses a scalable video coding method to design a client-driven scalable video transmission system.*e simulation results show that the algorithm can effectively improve the video quality. *e algorithm of rate control based on multimedia technology is proposed. A reliable multipath routing algorithm based on AODV is proposed. Based on the energy balance algorithm, the node-independent routing mechanism and link quality estimation model are introduced. An independent and reliable active/standby communication link to the node of the destination node is established. Linux, the full name of GNU/Linux, is a free-to-use and freely disseminated Unix-like operating system. It is a POSIX-based multiuser, multitasking, multithreaded, and multi-CPU operating system. With the development of the Internet, Linux has gained support from software enthusiasts, organizations, and companies all over the world. In addition tomaintaining a strong momentum of development in servers, it has made considerable progress in personal computers and embedded systems. Under the Linux platform, a large number of tests are performed and the performance of the control code rate is analyzed.*e socalled sensor network is a distributed intelligent network system that is composed of a large number of small sensor nodes with wireless communication and computing capabilities deployed in the active area through a self-organizing method that can autonomously complete designated tasks according to the environment. *e distance between the nodes of the sensor network is very short, and the multihop wireless communication method is generally used for communication. *e sensor network can run in an independent environment, or it can be connected to the Internet through a gateway so that users can access it remotely. It is concluded that ABR is the most suitable rate control algorithm for video transmission. According to the CQP experiment results, the QP value set in the improved ABR algorithm is at most 40; the security from the construction of the ubiquitous power sensor network to the final monitoring data collection and upload process is verified by simulating the hypothesis attacks and faults. It is proved that the construction of ubiquitous power sensor network can reduce the energy consumption and delay of monitoring data collection and verify the superiority of constructing ubiquitous power sensor network.


Introduction
Wireless video transmission refers to a monitoring system that uses radio waves to transmit video, sound, data, and other signals without wiring (cables). ere are two main concepts for wireless image transmission, that is, real-time video transmission. One is transmission on the move, that is, mobile communication, and the other is broadband transmission, that is, broadband communication. In wireless video transmission, because of the limitation of transmission bandwidth, it is necessary to control the transmission bit rate of the video. is technology is called bit rate control. Its purpose is to ensure the smooth transmission of the compressed bit stream in the channel and the reasonable utilization of the effective bandwidth. According to the positive or negative difference between the output coding bit rate of the encoded frame and the target bit rate, it can be judged whether the coding bit rate at the moment is too large or too small. e joint adjustment of these two points makes the bit rate control more accurate. To some extent, the test system has shifted from research and development to a complex production process. Simplifying the whole process and ensuring the completeness and continuity of the test after the transformation has also become one of the important research directions. Bit rate is also called "binary bit rate," commonly known as "bit rate," indicating the number of transmitted bits per unit time. It is used to measure the transmission speed of digital information, often written as bit/sec. According to the number of bits occupied by each frame of image storage and the transmission bit rate, the transmission speed of digital image information can be calculated.
In a computer system, multimedia refers to a humancomputer interactive information exchange and dissemination medium that combines two or more media. e media used include text, pictures, photos, sounds, animations and videos, as well as interactive functions provided by the program. With the continuous development of the Internet and the continuous popularization of multimedia information technology, human beings have higher and higher requirements for information, and the demand is more and more abundant, while the traditional ubiquitous power sensor network system collects less multimedia information. ere are several types of multimedia information, such as video, voice, images, text, and so on. Among them, video information is popular because of its convenience, content diversification, convenient storage, processing, and so on. With the rapid development of sensor technology, such as CMOS (Complementary Metal Oxide Semiconductor) camera, video collection becomes more and more convenient. erefore, as video application scenarios become more and more complex and complex, the popularity of multimedia information and the urgent need to update the sensor network lead to the emergence and development of ubiquitous power sensor networks.
Based on the practicability of ubiquitous networks, many research teams at home and abroad have conducted in-depth research. Park et al. [1] found that the uneven energy consumption caused by the integrated routing sensor of the topology deployment type is a factor that reduces the quality of service (QoS) and the lifetime of the overall topology with respect to the user's convenience service. Gope [2] proposed a new mutual authentication and key agreement scheme and resulted in significantly less computational overhead than others' schemes. Santana et al.'s [3] strategy promotes wireless interface deactivation between nodes that do not participate in any routing, which helps to save a lot of power for the grid. e strategy they studied was conducive to wireless transmission, which meant that it preferentially deactivated nodes that received interference from other parts of the smart city. Ubiquitous networks are literally widespread.
e ubiquitous network means that people are placed in a ubiquitous network, meaning that computers are integrated into people's living spaces, forming an "everywhere, everywhere" invisible "network environment" [4,5]. Chai and Xu [6] aimed at strengthening the production management of traditional workshops, strengthening the workshop production management, improving the production management level of the workshop, and researching the construction of smart workshops based on ubiquitous network technology. Ni et al. [7] established an integrated information service security policy management architecture for digital libraries for ubiquitous networks by in-depth study of big data, cloud computing, mobile Internet technology, and user service requirements. e development of ubiquitous networks will change the content and mode of information organization and conduct in-depth research on the mechanism of information organization in the new network environment [8]. Duan and Liu [9] studied the maturity of government information services in the ubiquitous network environment and can effectively evaluate government information services under the ubiquitous network environment. Pan and Chen [10] and others provided some reference for the innovation of library smart service mode and the improvement of library service level under the background of ubiquitous network. With the continuous development of network technology, the new network learning mode, that is, ubiquitous learning, has received more attention and development, and the introduction of ubiquitous learning into experimental teaching will be the inevitable result of future educational development [11]. Zhang [12] analyzed the concept of knowledge fusion in the ubiquitous network environment, and discussed the related technologies of ontology technology, semantic web, data mining and other knowledge fusion. Zhuoma [13] proposed that ubiquitous network construction requires the participation of social enterprises. It is necessary to adopt special policies to open existing public facilities' optical fiber lines and to promote the construction of smart communities on the basis of ubiquitous networks. Many research teams have used many research methods for ubiquitous network research, but their methods have certain drawbacks. e rate control algorithm has gradually become a research topic because of its simplicity, convenience, high operability, and high fault tolerance.
Nowadays, the rate control algorithm has been widely studied. In order to make the network transmission smoother and more stable, the researchers have done a detailed and rigorous research on the problems in the rate control and applied it in various fields. Etesaminia and Mazinan [14] apply the rate control algorithm to image processing. e proposed algorithm encodes only the coding channels contained in the final code stream and does not require any postcompression rate control. Park et al. [15] applied the rate control algorithm to the research of mobile devices and proposed a new coding rate control algorithm for uplink video services based on the estimated network conditions. Lakshmi et al. [16] applied the rate control algorithm to the network deployment. It was found that the flow control of data size and rate maximizes throughput and packet transmission with low power consumption. Guo et al. [17,18] proposed that rate control is an important module in the video coding system, which is used to control the code rate of the encoder to output a specific target and minimize the distortion of the encoded video; in order to meet the accuracy of the code rate control to improve the encoder rate distortion performance, a frame rate control algorithm based on improved R-λ model is proposed. e average bit rate relative error is 0.095%; the average bit rate savings (BD-Rate) is 2.6% based on HM16.7 with no code rate control. Yan et al. [19] proposed an MV-HEVC rate control algorithm based on similarity analysis for the problem that the current MV-HEVC has not given effective rate control. Zhan et al. [20] applied the rate control algorithm to video playback and proposed a slice-level rate control algorithm. Experimental results show that the algorithm can accurately control the slice rate and ensure video quality. Tang et al. [21] proposed an improved HEVC code rate control based on content complexity for high-efficiency video coding (HEVC) using average absolute error in rate control to inaccurate image complexity estimation and bit allocation deviation. Liu et al. [22] applied the rate control algorithm in scene switching.
e experimental results show that compared with HEVC's own rate control algorithm, this strategy can effectively reduce the negative impact of scene switching. Chen et al. [23] proposed a complexity-based HEVC intraframe rate control algorithm. e proposed method can make the output code rate closer to the target bit rate and further improve the video quality. Zheng et al. [24] reported that for the existing interpolation structure without feedback distributed video compression (DVC) under the condition of large image group, there is a serious decoding delay problem, and the feedback-free DVC system of extrapolation structure is studied. Rong and Yang [25] proposed a pixel-based linear weighted histogram for the inaccuracy of image complexity estimation and the irrationality of bit allocation in the LCU layer using the average absolute error (MAD) in the HEVC rate control scheme. Link quality is one of the research hotspots in the field of microgrid communication wireless sensor networks. e nonlinear and nonstationary random characteristics of wireless link quality are difficult to achieve accurate prediction and control of its reliability. e structure of the confidence interval prediction algorithm for the reliability of wireless communication links is proposed, and the approximate decoupling algorithm of the link quality represented by the signal-to-noise ratio and the confidence interval prediction algorithm of the link quality based on the wavelet neural network in the algorithm structure are studied, respectively. In order to solve the problem of complex operation and low accuracy in ubiquitous power sensor networks, this paper focuses on three aspects of the rate control optimization algorithm for multimedia-based ubiquitous power sensor networks: building multimedia-based technologies. ese three aspects are from the algorithm verification platform, the performance analysis of the rate control optimization algorithm based on multimedia technology, and the performance analysis of the ubiquitous power sensor network. A reliable multipath routing algorithm based on AODV is proposed. e nodeindependent routing mechanism and link quality estimation model are introduced to verify the security from the construction of ubiquitous power sensor network to the final monitoring data collection and uploading process. e code based on multimedia technology is proposed. e rate control optimization algorithm, under the Linux platform, carries out a large number of tests and analyzes its control code rate performance, and it is concluded that ABR is the most suitable rate control algorithm for video transmission and constructs a ubiquitous power sensor by analyzing and comparing the energy consumption and delay in the case of conventional networks and ubiquitous power sensor networks. Multimedia technology is a technology that uses computers to store and manage various information such as language, data, audio, and video so that users can communicate real-time information with computers through multiple senses. e content displayed and carried by multimedia technology is actually the product of computer technology.

Method
2.1. Ubiquitous Network System. As telecommunications services shift from voice-based to data-based, switching technology has also gradually shifted from traditional circuit switching technology to packet-based data switching and broadband switching, adapting to the integrated features of IP-based services in next-generation networks. e transmission of information is no longer as singular as the previous voice communication and written communication. e full development of optoelectronic technology has made the transmission of information more diversified; the processing of information used to rely mainly on human brain judgments, while computer technology in modern society telling development has increased the processing speed and processing accuracy of information and can accomplish some things that humans cannot accomplish. At present, the ubiquitous network has been regarded as the direction of the development and evolution of information and communication networks. For the implementation and research of ubiquitous networks, many countries and regions have put forward the concept of ubiquitous services and corresponding national strategies from the perspective of long-term development so as to seize the commanding heights of network strategies. As one of the most important and basic tools and technologies for collecting information on the physical world, sensor networks will surely play a very important role in the process of deploying ubiquitous networks as an absolute main member of the extension layer of the ubiquitous network architecture. An important bridge between people and the environment. e generalized network system architecture is shown in Figure 1.
e architecture of the ubiquitous network system can be divided into two layers: application and network. e network is the carrier of the application, and the application is built on the network. "Network service" refers to some service-oriented software modules based on distributed programs that run on the network. Network services use common Internet standards such as HTTP and XML (a Wireless Communications and Mobile Computing 3 subset of the standard universal markup language) to enable people to access WEB data in different places through different terminal devices.

Ubiquitous Power Sensor Network Reliable Multipath
Routing Algorithm. Based on the proposed energy equalization algorithm, a node-independent routing mechanism and a link quality estimation model are introduced to establish an independent and reliable active/standby communication link to the destination node. First, the primary path is used to transmit data. When the primary path is interrupted or the data transmission fails due to data congestion, the source node switches to the alternate path to transmit data; when the standby link fails, it enters the route maintenance phase, and the source node uses the redundant relay node to construct a weak ring topology to complete data communication and achieve reliable data transmission. e basic block diagram of the algorithm is shown in Figure 2.
Microgrid is a regional controllable basic micro power generation and distribution system composed of controllable distributed power sources, energy storage, load power networks, and communication control networks connected together. It can operate in island mode without the power grid, or it is connected to the grid and runs in grid-connected mode. In order to extend the life of the node, minimize the working time of the microprocessor, especially when there is no information analysis and processing, the microprocessor and the entire node are in a dormant state to increase the life of the sensor node. e energy supply module can maintain the normal operation of the sensor node software and hardware system, and the energy supply module requires stable working voltage and working current. is structure is shown in Figure 3.

Estimation of Loss Rate. Data compression technology
is mainly used to reduce the size of video data to meet the needs of storage and transmission, but the existing image processing technology must first fully decompress the video compression stream before processing. e link quality of the periodic estimator is to add a monotonically increasing sequence number in the sensor node data, and the receiving node estimates the unidirectional link quality between the nodes according to the received data information statistical packet loss situation. Assume that the number of data packets received by node i in the last node is n rev , the number of lost data is n loss , and smoothing coefficient is λ ∈ [0, 1]; then the data receiving success rate of node i during this time is estimated as follows: (1)

Link Reliability.
As a new generation of wireless communication technology, wireless sensor networks have unique advantages such as low power consumption and selforganization, which are considered to have broad application prospects in the fields of data acquisition, operation monitoring, fault diagnosis, and remote control of microgrids.
A new link performance model is established by defining link reliability to measure link reliability performance. e reliability P r of the link formed by the k sensor nodes on the path from the source node to the destination node can be calculated by . (2)

Reliable Link Quality
Model. Let the number of hops from the source node to the destination node be N, the remaining energy of node i on the link be E i , and the node load be L i ; then the performance function of the link based on link reliability is defined as shown in the following equation.

Entropy Weight Coefficient Method.
When the value of an attribute value on a different scheme is closer to its entropy value, the entropy E k of the attribute k is larger, indicating that the closer the value of the attribute is to each scheme, the optimal value of the attribute value, and the attribute. e smaller the difference between the values, the closer to the optimal value. e attribute value in each neighbor node is calculated by the following formula, and  the probability p k i of the N i attribute k of the neighbor node is obtained as follows:

Weight Calculation.
Since there is a certain attribute value difference between the same attribute values between neighboring nodes, the smaller the difference is, the closer the value of the attribute is, and the smaller the effect on the decision is, the smaller the corresponding weight should be given, and the weight given by the opposite. It should be bigger.
w k satisfies 0 < w k < 1, l k�1 w k � 1, and the obtained weight is substituted into the energy balance model to obtain the energy balance of each node in the neighborhood A � 1, and the node with better performance is selected by the energy balance control to forward the routing request.

Rate Control Algorithm Based on Ubiquitous Grid Sensor
Network.
e H.264 standard rate control scheme JVT-G012 uses the Lagrangian function to control the video compression rate. e following formula lists the rate distortion cost function of the H.264 standard: J represents the rate distortion generation value, R is the minimum number of coded bits, λ represents the rate distortion cost coefficient, SATD represents the absolute error sum, and the time domain difference of the coded residual can be calculated, which also affects the value of the peak signal-to-noise ratio (PSNR). e image complexity of the current frame is predicted based on the SATD value, and the image complexity is calculated by weighting the SATD value of the encoded frame and the SATD value of the current frame.
After predicting the complexity of the current coded frame, the following code rate control empirical formula  Wireless Communications and Mobile Computing is used to derive the quantization coefficient qpscale corresponding to the current frame.
qcomp denotes a linear quantization control parameter, generally taking two values. When qcomp = 0.0, it indicates a fixed code rate value; when qcomp = 1.0, it indicates a fixed quantization value. After obtaining the quantized coefficients of the current encoded frame, X264 will divide the quantization coefficient qpscale of the current coded frame into quarters based on the number of bits generated by the previous coded frame. e current coded frame quantization coefficient is updated to the following mediation formula: e final quantization parameter is obtained by the following formula. According to the above formula, when qpscale is smaller, the smaller the qp is, the smaller the quantization parameter is, and the purpose of increasing the code rate is achieved; on the contrary, when qpscale is larger, qp is increased while the code rate is decreased.

Online Adaptive
Transcoding. e online transcoding of the media content is that the compressed video stream passes through a transcoder before being transmitted to the client, and the original stream is converted into another different one by dynamically changing the encoding parameters, the frame rate, the spatial resolution, and the like. A schematic diagram of online transcoding is shown in Figure 4. e online transcoding can enhance the adaptability of the media, support heterogeneous networks and terminals, and support different systems and different formats. Online transcoding can enhance the adaptability of media, support heterogeneous networks and terminals, and support different systems and different formats. e analysis of the experimental results of the target code rate for different sequences is shown in Table 1.

Scalable Video Coding (SVC)
. SVC's temporal scalability refers to the ability to extract code streams of different frame rates from a single video stream. T0 denotes a base layer, and T1, T2, and T3 represent enhancement layers. In interprediction, the frames formed by the layers of T1 and T2 refer only to the frames in the layer, and the frames in the T3 layer need to refer to the frames in the T1 or T2 layer. When extracting a frame containing only T0, that is, a base layer code stream, the frame rate is 3.75 fps at this time; that is, the video is played at a speed of 3.75 frames per second. When a frame containing T1 and T2 layers is extracted, the video frame rate reaches 7.5 fps. Similarly, the frames of the T0, T1, and T2 layers are extracted, and the video frame rate is 15 fps. When all four layers of frames are extracted, 30 fps will be completely restored. Different frame structures correspond to different extraction methods.
Two quality layering methods are defined in SVC: coarse grain quality scalability (CGS) and medium grain quality scalability (MGS). e basic idea is to obtain differentquality images by controlling the quantization parameters in the interlayer prediction of quality stratification; that is, by adopting a smaller quantization step, the high-quality layer can obtain finer and higher quality than the low-quality layer. e difference is that the CGS-coded transform coefficients are fixed, and the MGS-coded transform coefficients can be intercepted at any point.

Multimedia B/S Architecture.
Here, the Browser/Server architecture belongs to a three-layer structure, and its threelevel structure is shown in Figure 5. In the B/S structure, the first-level browser is the presentation layer, and the main function is to implement the user. e interface is fully docked. When the client sends a specific request to the web server specified by the URL (Uniform Resource Locator), the web server transmits the corresponding file data to the user by using the HTTP protocol, and the client can display the WWW-based browser after accepting. e second layer of the Web server is a functional layer; the main function is to achieve the customer's specific application; that is, when the Web server accepts the client request, it will use the CGI program and ASP or JDBC-ODBC interface and the database is docked to implement the application processing, after which the results of the database are returned to the web server and then transferred to the corresponding client. As for the third-tier database server, it is the data layer. e main function is to implement independent data processing in response to the client's request. e Browser in the Browser/Server system is a type of general-purpose browser. It does not have any application in the normal sense. e middle layer in the Browser/Server system is a very important core part of the B/S structure.

Key-Value Storage.
A key-value database is essentially a hash table, similar to the data structure used by the HashTable collection in the Java language. Stored according to the key value, the value corresponding to each key value can be an arbitrary value. NoSQL does not impose too many restrictions on value and can be freely determined by each product. In general, NoSQL databases only provide simple operations such as set, get, and delete based on the key value, and do not provide operations for a value's value.

Document Storage.
e design of the document type database is inspired by the Lotus Notes office software, which is also stored based on key, but the corresponding value is no longer an arbitrary value, but a structured document. is structured document must meet specific storage formats such as XML, JSON, and more. A document-based database can be thought of as an upgraded version of a key-value database that allows nested key values within a document to implement complex storage.

Column Storage.
Column storage relies on a table model in a relational database, but it does not provide a multitable join operation like Join in a relational model. e design idea is that when the user stores the data, the "Column" is used as the storage focus point, which is significantly different from the "Row" in the relational database. From the perspective of physical storage, since the minimum storage unit of the hard disk is the page, the relational database stores the data of the same record in the table in the same page of the hard disk, and the column storage stores the data belonging to the same column.

Graph Storage.
e graph database uses graph structure correlation algorithms to implement data storage, such as shortest path addressing algorithm and N degree relationship lookup. When using the graph data model, it is often necessary to calculate the entire graph to get the required information. e calculation is relatively complicated, and the graph structure is not suitable for the distributed cluster scheme. e graphical database is more suitable for social networks, recommendation systems, and so on, focusing on building relational graphs. Comparison of different storage rules and related parameters is shown in Table 2.

Experimental Platform and Equipment. Arm-based
Linux video acquisition is mainly used for the acquisition of video image sequences, which is to prepare for the following modules such as video encoding.
is article mainly implements ARM9 acquisition based on arm9. e selected USB camera model is WD-HA603F; the picture below is the camera mounted on the wall. e video capture interface uses V4L2 (video for Linux 2), which is an API interface for collecting multimedia information such as pictures, audio, and video under the Linux operating system platform. It is widely used in remote conferences and high-definition video surveillance in the fields of systems and embedded multimedia terminals. Among them, the Linux operating system is used by the majority of users because of its low cost, opensource network, code sharing, device independence, and good portability. e V4L2 interface assists in the collection of multimedia information such as pictures and videos by assisting the appropriate acquisition device and corresponding camera driver. e experimental video capture operating system model is shown in Figure 6. e device voltage requirements are shown in Table 3.

Web browser
Web server Database gateway Database server

Cross-Compiler Environment Installation and
Configuration. Cross-compilation can generate executable files that can be run by another platform on one platform, that is, programs compiled in a certain PC environment and code that can be run in another environment. is tool is a cross compiler. Because you cannot complete the required functions on the destination platform, such as compiling, or the target platform has no operating system, cannot run, and so on, you need the help of cross compiler. is article uses cross compilation on the Linux platform to generate executable files on the arm platform. Cross-compiler tool version: arm-linux-gcc 4.4.3, compile platform: PC redhat 9 system.

Quality of Multimedia Services.
Due to the adaptive media service approach, the code rate/quality is timevarying, and the received video is distorted relative to the original video. For video with the same content and encoding, different transmission adaptive algorithms usually get different video quality even if they are transmitted in the same network environment. e most intuitive way to evaluate the quality of a video service is the quality of the video at the receiving end, that is, comparing each corresponding pixel of the original reference video frame with the distorted video frame, thereby obtaining the degree of similarity or fidelity between the two. e simplest methods to measure fidelity are the mean square error (MSE) and peak signal to noise ratio (PSNR).
Mean Square Error (MSE):  Figure 6: Video operating system model.
where n is the number of bits per sample value. e PSNR is essentially the same as the MSE and is a logarithmic representation of the MSE. Based on the structural similarity (SSIM) of a single image, the quantized QoE is obtained by mapping the time-averaged SSIM onto the MOS. e mapping method is as follows: q mos � 13.3442 log 1 − q ssim + 3.6226 1 − q ssim + 77.0117.

(13)
q ssim is a time-averaged SSIM with a score from 0 to 100, with 0 indicating the best QoE and 100 indicating the worst QoE.

Evaluation of Rate Control Algorithm.
According to the DASH coding standard, the higher the code rate, and the higher the video quality, during video playback, the code rate is dynamically changing. erefore, the video average bit rate can be used to measure the quality of the video. e average bit rate of a video is defined as where B(n) represents the code rate of the video segment n. e frame image quality can be measured by the average bit rate. Fluctuations in video quality can be measured by the frequency and magnitude of the quality switching. e frequency of rate switching is defined as where S(N s ) is the total number of handovers, where τ is the video duration. e magnitude of the rate switch can be defined as It indicates the bit rate difference between two adjacent video segments.

Multimedia Client Operating Platform.
In order to ensure that the simulation is close to the actual system, we use Mininet as the simulation platform. Mininet is a lightweight soft-defined network R&D and test platform that supports soft-defined network components such as Openflow and OpenvSwitch, supports complex topologies and custom topologies, and has good hardware portability (Limix compatibility). Use Mininet to virtualize a series of nodes, including hosts, switches, and controllers. e specific multimedia client platform interface is shown in Figure 7. At the same time, OpenvSwitch and POX were selected as virtual OpenFIow switches and controllers, respectively. e controller can configure the switch through the OF-Config interface. We implemented the controller program in Python, and the bandwidth of the link between network nodes was set to 1 Mbps. It can convert complex numerical calculations into matrix calculations, and the programming language has strong portability, high calculation efficiency, complete graphics processing capabilities, can realize the programmable characteristics of graphics, and has a rich toolbox. e video used in the experiment is "Great Barrier Reef," which adopts SVC's spatial scalable coding method, including a basic layer and an enhancement layer with spatial resolutions of 320 × 160 and 640 × 360, respectively. e base layer has a code rate of 91 kbps and a PSNR of 37.759 dB for the decoded video. Conversely, the enhancement layer has a code rate of 124 kbps and a PSNR of 40.511 dB for the decoded video. In order to achieve multipath transmission, different video layers are sent through different UDP ports. In the experiment, the base layer occupies 50001 ports and the enhancement layer occupies 50002 ports. e switch matches the sending port in the forwarding table so that it can distinguish the video streams of different layers. Figure 8 shows the mobile multimedia client operation interface.

Sensing Application Analysis of Ubiquitous Power Network Structure.
Based on the characteristics of the ubiquitous network that is guided by network applications, the information perception platform is combined with the application requirements of specific scenarios in the laboratory, and a sensor network application display platform based on the ubiquitous network architecture is developed to demonstrate the application under the ubiquitous network architecture. e characteristics and network characteristics of it are very meaningful. Analyze the characteristics of the ubiquitous network structure, as shown in Figure 9.
In the power system, the wireless sensor network can monitor, perceive, and collect various power parameters in the distribution area of the power network in real time and process this information to obtain more detailed and accurate information. e target bit rate comparison results of different algorithms optimized for the ubiquitous power sensor network tester are shown in Figure 10.

Analysis of Rate Control Optimization Algorithm Based on Multimedia Platform.
e adaptive clustering routing algorithm can extend the network life cycle. In order to verify the relevant analysis conclusions of the algorithm design part, the network lifetime verification experiment designed in this paper is verified in the following aspects. e first set of control experiments set the statistics of the number of dead nodes, and the sampling was performed once every 50 rounds of simulation period. e simulation time was 500 rounds, and the unit packet size was 500 bits. e variation of the number of dead nodes in the network of a simulation Wireless Communications and Mobile Computing process with the simulation time is studied. e statistical data curve is shown in Figure 11(a); the second group of controlled experiments changes each round of data packets under the premise of other conditions. Size, unit data packet variation range: 200-2000 bits, ten sets of simulations, with the first node death time as the network lifetime, and the curve comparison of the network lifetime data is shown in Figure 11(b).
In order to verify the accuracy of the wireless link quality prediction model under the noise interference and multipath effect of the wireless communication link in different power industry environments, the article selects three scenarios of distributed photovoltaic power generation system, microgrid underground voltage conversion room, and energy storage equipment as the simulation experiment scenarios. It can be seen from Figure 11(a) that the network nodes using AODV and LEACH algorithm have half of the node energy exhaustion failure when the simulation time reaches 30 and 70 rounds, and the optimized adaptive family algorithm AC_AODV simulates the time when half of the nodes fail. After more than 100 rounds, as the simulation progresses, the number of failed nodes increases. At the same time, the AC-AODV algorithm has the least number of failed nodes, which indicates that the algorithm can make the network cluster head distribution more uniform, energy consumption is balanced, and there are more inter-clan hop routing mechanism can effectively save network energy consumption and extend the network lifetime. Figure 11(b) shows the comparison of the network lifetimes of different algorithms under ten sets of experiments after changing the unit packet size. It can be seen that as the unit packet size becomes larger, the energy consumed per round of packets is increased, and energy saving is achieved. Accelerated, the life cycle of the three algorithms is generally declining, but the AC-AODV algorithm is longer than the other two methods in different packet sizes. e results of multiple sets of algorithms show that the algorithm has good performance.

Comparison of Algorithms Based on Ubiquitous Power
Sensor Networks. As shown in Table 4 and Figure 12, obviously, if collecting data on a single tower and sending it to the data center, it saves time compared to the mode of not collecting monitoring data. On the other hand, in long transmission lines, if you want to send monitoring data to the data center, it will pass many hops and the network mode will save more time. is shows the advantages of studying the sensor network model. Delay performance and energy costs are more reliable than the previously proposed security protocol network model. It can be proved that the ubiquitous power sensor network communication protocol designed by us can greatly reduce the energy consumption of the entire power long-distance transmission line, making the collection of monitoring information more energy-saving.
is communication protocol will be beneficial to ubiquitous power. e wireless sensor around the sensor network is used because the communication protocol has a low demand for energy consumption, which is in line with the wireless sensor solar power supply. In terms of time delay, the communication protocol of this paper can also make the process of obtaining information in the data center faster and make the fault processing time faster.
After analysis, considering the limited CPU of the normal sensor node, because the normal sensor node can only perform some simple operation data collection, calculation, and transmission, so the GN has a powerful CPU and a separate power system so that the GN processing capability is stronger than NSN, GN performs the main protocol calculation steps, so we can solve the problem of low computing power of ordinary sensors.

Performance Analysis of Simulation Network Algorithm
Presented by Client. Comparing the code rate change of the code rate control optimization algorithm, as shown in Figure 13, it can be found that even if the network fluctuates drastically, the video bit rate remains relatively stable. For example, compare the performance of the algorithm between 80 s and 100 s. For the controller-side adaptive algorithm, the video bit rate is maintained at 6 Mbps. For the client's adaptive algorithm, the video bit rate is constantly shaking up and down between 5 Mbps/s and 6 Mbps. e jitter of the code rate will cause the video quality to flicker, which will reduce the quality of the experience.
is is also reflected in the performance indicators shown in Figure 14: the former video bit rate variation is 0.15 Mbps/s; the frequency is 0.12 s, lower than the latter 0.36 Mbps/s and 0.32 s. is is because the rate control on the controller side is based on the congestion probability,  and the short-term changes of the network have little effect on the congestion probability. For the rate control of the client, the video bit rate depends on the instantaneous throughput of the network, so the fluctuation of the network will cause the rate jitter. e video frame format and other parameters are shown in Table 5.
Notify the online client, send a text message, and rotate the pan-tilt to the corresponding preset position for shooting and video recording. At the same time, the interface of the strategy library has buttons such as add, modify, delete, and save. You can add new strategies, modify and delete existing strategies, and save the set strategies. Evaluate the performance of the rate control optimization algorithm from the perspective of customer experience, and the results are shown in Figure 15.

Discussion
e multimedia operation platform based on NoSQL database and B/S architecture can adaptively adjust the bit rate and routing of video according to the change of network conditions, thereby greatly improving the adaptive ability of video services to network changes. At the same time, due to the multipath transmission mode, the idle bandwidth resources on different paths are effectively utilized, and the video quality is improved. It can only locate the high-voltage  nodes of the power line and can also obtain the data of the sensor network, realize the all-round monitoring of the power frame, and formulate its own behavior plan based on the data of the sensor network.
In the simulation, the player's startup delay is set to 333 milliseconds; that is, the video playback starts after 10 frames are cached. e underflow threshold of the video play queue length is 4, that is, QL � 4. e parameters of the algorithm based on the underflow probability are set as follows: sliding window length Sw � 80; prediction window length N � 100; forgetting factor p � 0.8; and underflow probability thresholds qu � 10-3 and qo � 10-8. At the beginning of the experiment, only the base layer L01 video data is transmitted. e proposed rate control optimization algorithm EB-AODV of the ubiquitous power sensor network controls the broadcast direction of the route request by introducing a multiattribute energy balance mechanism in the route request phase so that the route bypasses the lower performance node, and secondly a link with a better link performance is selected as a data transmission link by a link performance function. e simulation results show that energy-balanced routing can effectively avoid the problem of uneven energy consumption in the network, improve the overall performance of the network, and extend the network life cycle.
rough the simulation attack, the specific response of the security protocol is analyzed to verify the security of the    protocol, and the designed communication protocol is safe and reliable. By calculating the energy consumption analysis, the low energy consumption of the communication protocol is verified, and the delay of the power tower wireless sensor network is compared with the delay of the common smart grid communication. It is concluded that the construction of the communication model can reduce the delay and thus prove superiority of the design of this paper.

Conclusion
In this paper, the rate control optimization algorithm for multimedia-based ubiquitous power sensor network tester is studied from three aspects: constructing algorithm verification platform based on multimedia technology, performance analysis, and ubiquity of rate control optimization algorithm based on multimedia technology. Performance analysis of power sensor networks is done. In order to overcome the randomness, complexity, and time-varying of the network, high-definition and smooth multimedia services are provided, and the problem is optimized and modeled by stochastic optimization. Experiments show that the algorithm can improve the video quality as much as possible while ensuring smooth playback. e specific work is summarized as follows: (1) Establish an algorithm verification platform based on multimedia technology. is article uses a scalable video coding method to design a client-driven scalable video transmission system. e underflow probability is proposed and defined considering the state of the channel and the buffer state at the receiving end. e impact of changes in channel quality on video playback can be predicted by estimating the underflow probability. In order to verify the feasibility of the actual deployment of the algorithm, the prototype system is designed and verified. Finally, simulation experiments show that the algorithm can effectively improve the video quality.
(2) Propose a rate control optimization algorithm based on multimedia technology. In order to ensure the reliability of network communication, a reliable multipath routing algorithm based on AODV is proposed. Based on the energy equalization algorithm, a node-independent routing mechanism and a link quality estimation model are introduced to establish an independent and reliable active/standby communication chain to the destination node. With this reliable link redundancy mechanism, reliable data transmission is achieved. (3) Under the Linux platform, a large number of tests are carried out, and the performance of the control code rate is analyzed. It is concluded that ABR is the most suitable rate control algorithm for video transmission. According to the CQP experiment results, the QP value set in the improved ABR algorithm is up to 40. Compared with the previous algorithm, according to the experimental results, it is closer to the target code rate, more accurate, and more suitable for application in real-time video transmission systems. (4) Verifying the security from the construction of the ubiquitous power sensor network to the final monitoring data collection and upload process by simulating hypothetical attacks and failures. By analyzing and comparing the energy consumption and delay of constructing a ubiquitous power sensor network and not constructing a ubiquitous power sensor network, it is proved that building a ubiquitous power sensor network can reduce the energy consumption and delay of monitoring data collection and verify the superiority of building a ubiquitous power sensor network.

Data Availability
is article does not cover data research. No data were used to support this study.

Conflicts of Interest
e authors declare that they have no conflicts of interest regarding the publication of this paper.