Improving the spaceborne GNSS-R altimetric precision based on the novel multilayer feedforward neural network weighted joint prediction model

Global navigation satellite system-reflection(GNSS-R)sea surface altimetry based on satellite constellation platforms has become a new research direction and inevitable trend,which can meet the altimetric precision at the global scale required for underwater navigation.At present,there are still research gaps for GNSS-R altimetry under this mode,and its altimetric capability cannot be specifically assessed.Therefore,GNSS-R satellite constellations that meet the global altimetry needs to be designed.Meanwhile,the matching precision prediction model needs to be established to quantitatively predict the GNSS-R constellation altimetric capability.Firstly,the GNSS-R constellations altimetric precision under different configuration parameters is calculated,and the mechanism of the influence of orbital altitude,orbital inclination,number of satellites and simulation period on the precision is analyzed,and a new multilayer feedforward neural network weighted joint prediction model is established.Secondly,the fit of the prediction model is verified and the performance capability of the model is tested by calculating the R2 value of the model as 0.9972 and the root mean square error(RMSE)as 0.0022,which indicates that the prediction capability of the model is excellent.Finally,using the novel multilayer feedforward neural network weighted joint prediction model,and considering the research results and realistic costs,it is proposed that when the constellation is set to an orbital altitude of 500 km,orbital inclination of 75and the number of satellites is 6,the altimetry precision can reach 0.0732 m within one year simulation period,which can meet the requirements of underwater navigation precision,and thus can provide a reference basis for subsequent research on spaceborne GNSS-R sea surface altimetry.

双水相协同超声法提取枇杷叶中绿原酸的工艺研究

试验采用响应面法优化双水相协同超声法提取枇杷叶中绿原酸的工艺,探讨提取液中乙醇体积分数、超声温度、超声时间、磷酸氢二钾用量和超声功率对绿原酸提取率的影响。结果显示,双水相协同超声法提取枇杷叶中绿原酸最佳提取工艺条件为乙醇体积分数61%、超声温度61℃、超声时间25 min、磷酸氢二钾用量4.6 g,此条件下绿原酸提取率1.53%,与预测值相接近。研究表明,双水相协同超声法提取枇杷叶中绿原酸的提取工艺稳定可行,可为枇杷叶的资源化开发与利用提供参考。

煤液化残渣诱导缩聚制备冶金焦的影响因素

煤液化残渣所含沥青质和重油在热解时可产生大量自由基,如不能被及时稳定和缩聚将转化为大量焦油和气体,形成孔隙结构,从而影响所制冶金焦密度。为此,拟引入添加剂诱导其高效缩聚,提高聚合物密度,再经炭化后制备优质冶金焦。通过系统研究不同添加剂(糠醛、甲醇、呋喃和羟基丙酮)、温度(350、400、450、500和550℃)、停留时间(0、30、60和120 min)和添加量(0、4、8和16 g)对所制聚合物缩聚率、结构性质、密度、热稳定性和表面性质影响,获得煤液化残渣诱导缩聚的最优试验条件。在最优条件下,分别探讨所制聚合物和炭化物的表面形貌、微晶结构和元素变化情况,获得煤液化残渣诱导缩聚机理。结果表明,添加剂(糠醛)的诱导缩聚效果最佳,其次是羟基丙酮,因而理想添加剂至少应含有1个醛基或酮基。不同添加剂可促进煤液化残渣缩聚,提高所制聚合物比表面积、孔容、平均孔径和真密度。温度和停留时间对煤液化残渣/糠醛聚合物热稳定性和表面性质影响较大,温度升高和停留时间延长可促进煤液化残渣所含酚类基团和芳香物中H参与缩聚反应,提高聚合物的缩聚程度。煤液化残渣/糠醛(焦炭)整体呈片层密实状,并含更多无定形碳。

2017—2021年承德市布鲁氏菌病流行特征分析

目的分析承德市2017—2021年人间布鲁氏菌病(以下简称“布病”)流行特征,为有效防控布病提供科学依据。方法通过中国疾病预防控制信息系统下载承德市2017—2021年人群布病数据,通过畜牧部门了解羊牛养殖情况,采用Excel 2019软件进行描述性分析,运用GIS软件对发病率进行空间相关及趋势分析。结果2017—2021年承德市共报告布病1994例,年发病率为8.98/10万~16.69/10万。各年龄组均有病例报告,40~69岁为高发年龄段。职业以农牧民为主,男性多于女性,男女比例为2.56∶1。11个县(市、区)均有布病发生,在承德市范围内布病发病率整体上呈空间聚集分布,主要分布在承德市西北部。分离培养布鲁氏菌11株,均为羊3型。结论承德市2017—2021年布病呈散发状态,4—7月发病率较其他月份偏高;地区分布呈现明显的聚集性,建议全年持续加强全市布病防控工作。

高频链AC-DC矩阵变换器的变控制频率软开关调制策略

针对高频链AC-DC矩阵变换器的高效率要求,提出了一种变控制频率软开关调制策略。该调制策略在基于零矢量嵌入的分段同步控制策略基础上,以单控制周期平均功率不变为原则,通过改变控制周期长度,并调整一个控制周期内的电压矢量排布,优化脉冲宽度,使变换器在换流时全部开关器件的零电压开通成为可能。通过仿真分析和实验证明,采用本文提出的变控制频率调制策略,变换器在整流和逆变模式下,均可实现网侧电流三相平衡正弦,功率因数达到0.981,输出电压纹波小,最高效率达到96.9%,实现了高性能、高效率运行。

济南市典型区夏季VOCs分布特征及臭氧生成机制

基于2020年6—8月济南市石化区、市区和南部山区VOCs以及臭氧和气态污染物等在线监测数据,结合气象因素分析了各典型区夏季VOCs污染特征,并通过计算臭氧生成潜势(OFP)和MCM模型模拟分析了不同区域不同污染等级VOCs对臭氧生成的影响,采用PMF模型对市区夏季VOCs进行了来源解析研究.结果表明,石化区VOCs浓度(158.29μg·m^(-3))明显高于市区(47.71μg·m^(-3))和南部山区(24.65μg·m^(-3)),VOCs中均以烷烃占比最大,其次为芳香烃,3个区域VOCs浓度均随污染等级升高而升高;不同污染等级下均为石化区OFP(743.7—1474.9μg·m^(-3))大于市区(156.9—378.1μg·m^(-3))和南部山区(113.4—168.7μg·m^(-3)),3个区域均是芳香烃OFP占比最大,其次为烯烃,说明芳香烃和烯烃类VOCs对臭氧生成的贡献最大,其中OFP贡献最大的单体为间/对-二甲苯;MCM模拟结果表明石化区O_(3)净生成速率(33.51×10^(-9)·h^(-1))最高,其次为市区(22.97×10^(-9)·h^(-1))和南部山区(3.91×10^(-9)·h^(-1));石化区的1-戊烯、甲苯、异戊二烯、间-乙基甲苯和邻二甲苯,市区的1-丁烯、间/对-二甲苯和顺式-2-丁烯,南部山区的顺式-2-丁烯、异戊二烯、反式-2-丁烯相对增量反应活性(RIR)较大,对臭氧生成的影响较为明显.PMF模型解析结果表明济南市区夏季燃烧源、移动源和餐饮油烟源对VOCs贡献较大.

三级耦合技术处理含砷废水工程实例

以某光伏企业为例,以砷为主要考察指标,设计“板框压滤+砷铁共沉淀+活性砂过滤”三级耦合工艺,应用于含砷废水预处理。介绍该工艺技术特点,并给出主要构筑物的技术参数,阐述工艺控制要点及系统运行情况,分析运行效果。工程运行结果表明,该工艺可有效去除总砷,出水水质稳定达标。

改良Kakita胰肠吻合技术在胰十二指肠切除术中的应用

目的探讨改良Kakita胰肠吻合技术(pancreaticojejunostomy,PJ)在胰十二指肠切除术(pancreaticoduodenectomy,PD)中的应用效果。方法选取2018年5月至2022年6月期间于武汉大学中南医院等5家医院采用改良Kakita PJ进行PD的病人,其中将153例行开腹PJ的病人分为A组,将110例行微创PJ的病人分为B组。A组包括135例开腹胰十二指肠切除术,13例微创PD中转开腹以及5例微创PD小切口吻合病人;B组包括87例腹腔镜下胰十二指肠切除术以及23例机器人辅助胰十二指肠切除术病人。回顾性分析两组病人的围术期临床资料。结果263例PD均顺利完成。(1)A组:PJ时间中位数为9 min(7~15 min),术中出血量中位数为200 mL(50~1000 mL),18例(11.8%)术后并发症Clavien-Dindo分级≥3级,B、C级胰瘘14例(9.2%),胆漏8例(5.2%),B、C级腹腔内出血13例(8.5%),消化道出血1例(0.7%),腹腔内感染14例(9.2%),术后30 d内再次手术者8例(5.2%),术后90 d内死亡2例(1.3%),死亡病例均由胰瘘引起。(2)B组:PJ时间中位数为17 min(12~25 min),术中出血量中位数为60 mL(10~250 mL),7例(6.4%)术后并发症Clavien-Dindo分级≥3级,B、C级胰瘘5例(4.6%),胆漏5例(4.6%),B、C级腹腔内出血3例(2.7%),消化道出血1例(0.9%),腹腔内感染9例(8.2%),术后30 d内再次手术者3例(2.7%),术后90 d内死亡者1例(0.9%),死亡病例与胰瘘无关。结论改良Kakita PJ操作简便,易于开展,可在开腹以及微创PD中安全实施。

蔡小平治疗肿瘤相关性抑郁的临床经验

肿瘤相关性抑郁是恶性肿瘤确诊及治疗过程中出现的病理性的抑郁状态,主要表现为恐惧、兴趣减退等,不仅使肿瘤患者更加痛苦,也不利于疾病本身的治疗。西医治疗有一定的局限性,患者病情初期,仅仅服用中药,病情就可以得到明显的改善,若不予以重视,则会恶化,甚至进展为难治性抑郁。蔡小平教授通过认为肿瘤相关性抑郁与肿瘤及其伴随的治疗密切相关,初则及气,渐及血分,久则伤及肝肾之阴,可从痰气交阻、肝胃不和、肝郁脾虚、心脾两虚、血虚脏躁及肝肾阴虚6个方面进行辨证论治,治疗以行气化痰、疏肝清肝、疏肝健脾、补益心脾、和中缓急及滋肾养肝为主,取得了良好的临床疗效;本文对其辨证治疗肿瘤相关性抑郁的临床经验进行整理,为临床实践提供参考。

济南市钢铁集聚区大气细颗粒物中碳组分污染特征

为分析钢铁集聚区大气细颗粒物(PM_(2.5))中碳组分的污染特征,对济南市钢铁集聚区和市区秋季(2020年10月15日至2020年10月24日)、冬季(2020年12月18日至2021年1月7日)和春季(2021年4月23日至5月2日)环境空气中PM_(2.5)进行手工采样,利用热光碳分析仪测定了PM_(2.5)中有机碳(OC)和元素碳(EC)的含量.结果表明,钢铁集聚区秋季OC和EC质量浓度范围分别为5.79—12.56μg·m^(−3)和1.34—3.44μg·m^(−3);冬季OC和EC质量浓度范围分别为3.92—55.54μg·m^(−3)和0.38—11.39μg·m^(−3);春季OC和EC质量浓度范围分别为2.14—4.70μg·m^(−3)和0.19—1.33μg·m^(−3),呈现显著的季节变化,表现为冬季>秋季>春季.钢铁集聚区冬季PM_(2.5)中OC和EC占比最高,分别为28.11%和5.36%,春季OC和EC占比最低,分别为9.82%和1.76%.钢铁集聚区秋季和冬季OC(EC)质量浓度均高于市区,分别是市区的2.12(2.68)、2.27(4.27)倍,表明钢铁集聚区秋冬季PM_(2.5)的污染状况比较严峻.在以PM_(2.5)为首要污染物的不同污染等级下,均为碳组分OC4和EC1的占比最高,分别占PM_(2.5)的9.0%和7.5%,是碳组分的主要贡献组分.钢铁集聚区春季、秋季和冬季SOC的浓度分别为1.09、1.79、10.80μg·m^(−3),分别占OC质量浓度的35.39%、19.02%和37.00%,表明钢铁集聚区冬季比其他季节二次有机污染较严重.由因子分析可知,钢铁集聚区碳组分主要来源于钢铁工业烧结等工序燃煤和柴油车尾气排放.研究成果为济南市钢铁集聚区周围环境空气质量改善措施的制定提供技术支撑.

基于高分辨率卫星和无人机的广西滨海盐沼面积变化监测

滨海盐沼作为重要的海岸带生态系统,在海岸保护、生物多样性维持、固碳减污等方面发挥了重要的生态服务功能。及时准确地监测滨海盐沼分布情况和动态变化,对于科学地管理和保护本地滨海盐沼生态系统意义重大。本研究基于2019年和2021年多源国产高空间分辨率卫星数据,结合无人机自主性强、灵活机动、不受云遮挡影响的优势,对广西壮族自治区滨海盐沼开展遥感跟踪监测。研究结果表明,广西2021年滨海盐沼总面积为1 341.40 hm2,其中,北海市、防城港市和钦州市3个海滨城市的滨海盐沼面积分别为1 247.82 hm2、49.73 hm2和43.85 hm2。与2019年相比,广西2021年滨海盐沼总面积减少108.96 hm2,其中,北海市互花米草(Spartina alterniflora)面积减少107.05 hm2,钦州市短叶茳芏(Cyperus malaccensis)和芦苇(Phragmites australis)面积减少1.91 hm2,防城港市滨海盐沼面积不变。广西当地对入侵种互花米草的治理卓有成效,互花米草大范围减少,但局部区域的互花米草分布仍呈不断增长的趋势,仍需重视对互花米草的监测与防控工作。

光学和微波遥感数据联合反演植被覆盖表层土壤含水率

【目的】探究Vertical-Vertical(VV)、Vertical-Horizontal(VH)极化及双极化方式对微波遥感反演表层0~10 cm土壤含水率影响,分析不同数据源(Landsat-8,L8;Sentinel-2,S2)得到的归一化植被指数(NDVI)、归一化水体指数(NDWI)对表层土壤含水率遥感反演精度的影响。【方法】基于VV、VH单一极化和双极化模式,结合S2和L8计算的NDVI与NDWI估算植被含水率(VWC),消除植被对土壤的后向散射影响,得到土壤后向散射系数,基于水云模型反演北京市大兴区表层土壤含水率。【结果】对于VV极化,VV+S2NDWI反演0~10 cm土层的土壤含水率精度最高(R^(2)=0.763,RMSE=1.55%);对于VH极化,VH+S2NDVI反演的0~10cm土层的土壤含水率精度最高(R^(2)=0.622,RMSE=1.66%);对于双极化,Dual-Polarized(DP)+S2NDVI反演的0~10cm土层的土壤含水率精度最高(R^(2)=0.895,RMSE=0.89%)。【结论】NDVI更适用于去除水云模型中的植被影响,且双极化方式反演0~10 cm土层的土壤含水率精度较高。

腹腔镜下经胆囊管柱状球囊扩张联合胆道镜胆管探查取石术同期治疗胆囊结石合并继发胆总管结石

目的探讨腹腔镜下经胆囊管柱状球囊扩张治疗继发胆总管结石的临床价值。方法回顾性分析2019年2月至2023年4月长江大学附属仙桃市第一人民医院应用腹腔镜下经胆囊管柱状球囊扩张胆道镜探查取石术治疗的50例胆囊结石合并继发胆总管结石患者的治疗效果。结果均取石成功,中转开腹手术1例,术中联合钬激光碎石1例,胆道镜胆总管探查率100%,肝总管探查率96%(48/50),可吸收夹直接关闭胆囊管32例,经胆囊管缝合、修补夹闭18例,术中留置鼻胆管7例。胆总管结石数目1~5枚,结石大小3~12 mm,胆总管直径5~15 mm,平均手术时间(132.0±37.3)min,术后平均住院时间(6.7±2.3)d,平均总费用(27796±6248)元。术后发生胆漏2例,术后随访半年内无残留结石及结石复发,未见胆管狭窄。结论在严格掌握相关适应证的前提下,腹腔镜下经胆囊管柱状球囊扩张联合胆道镜胆管探查取石术治疗继发胆总管结石是安全有效的。

炒制工艺对油茶籽油挥发性物质的影响

采用全自动样品前处理系统(CTC)-顶空固相微萃取(HS-SPME)结合气相色谱-质谱联用(GC/MS)技术对油茶籽炒制过程中挥发性物质进行分析和鉴定,并结合感官评价对炒制过程中油茶籽油的风味特征进行评价。结果表明:不同炒制工艺下共定性和定量挥发性物质73种,其中醛类物质种类最多(14~16种),质量分数最高(50%~70%);炒制温度相比较于炒制时间,可显著提高呋喃类和吡嗪类化合物的种类和含量以及酯类化合物的种类;鉴定出对油茶籽油整体风味关键贡献的风味物质(ROAV≥100)共11种,按照贡献度大小分别是3-甲基丁醛、(E)-2-甲基-2-丁酸乙酯、苯乙醛、2-甲基丁醛、己醛、二羟基-2(3H)呋喃酮、辛醛、2-甲基丙醛、庚醛、2-戊基-呋喃、辛酸;高温长时有利于麦芽味、水果味、青草味、烧烤味和坚果味的风味物质的生成,低温短时更有利于脂肪味、焦糖味、水果味风味物质的生成;通过主成分分析(PCA),炒制工艺140℃—15 min、160℃—15min和180℃—15 min下的油茶籽油样品风味特征明显区别于其他工艺,具有贡献的风味化合物主要为呋喃类化合物、醛类化合物和吡嗪类化合物;综合考虑油脂劣变、风险因素以及感官评价,炒制温度140℃和炒制时间15 min是较佳的油茶籽油炒制工艺,制备的油茶籽油风味最浓郁、清新、最具纯正茶油特征香气,辛辣味、坚果味、青草味、水果味是热榨油茶籽油最具代表性的特征风味。

基于Sentinel-2A和GF-1B遥感数据的海岸带水产养殖识别方法比较

近海水产养殖为人类提供优质的动物蛋白,对海洋经济高质量发展具有重要意义。卫星遥感技术已被广泛用于海岸带水产养殖的监测,但目前相关的研究聚焦基于单一传感器卫星数据并使用单一信息提取算法而忽略与不同卫星传感器以及处理方法之间的比较。本研究以北莉岛东北部为研究区,基于多光谱Sentinel-2A卫星和高分一号B(GF-1B)卫星数据,分别使用自适应阈值法、支持向量机监督分类法以及多尺度分割面向对象分类法,开展海岸带人工水产养殖区的识别。研究表明,更高空间分辨率的GF-1B卫星对人工水产养殖水网密集区的提取正确率远优于Sentinel-2A卫星;基于高空间分辨率GF-1B卫星,多尺度分割面向对象分类法的正确率最高,为94.65%,优于支持向量机监督分类法的94.45%和自适应阈值法的84.62%;自适应阈值法更适用于中等空间分辨率卫星数据的水产养殖信息提取,其提取的水产养殖水面的面积与目视解译提取的面积差异小于4%。针对单个养殖池使用情况的业务化监测需使用高空间分辨率卫星数据,而大范围水产养殖面积的变化分析则可应用中等空间分辨率卫星数据。

Improving path planning efficiency for underwater gravity-aided navigation based on a new depth sorting fast search algorithm

This study focuses on the improvement of path planning efficiency for underwater gravity-aided navigation.Firstly,a Depth Sorting Fast Search(DSFS)algorithm was proposed to improve the planning speed of the Quick Rapidly-exploring Random Trees*(Q-RRT*)algorithm.A cost inequality relationship between an ancestor and its descendants was derived,and the ancestors were filtered accordingly.Secondly,the underwater gravity-aided navigation path planning system was designed based on the DSFS algorithm,taking into account the fitness,safety,and asymptotic optimality of the routes,according to the gravity suitability distribution of the navigation space.Finally,experimental comparisons of the computing performance of the ChooseParent procedure,the Rewire procedure,and the combination of the two procedures for Q-RRT*and DSFS were conducted under the same planning environment and parameter conditions,respectively.The results showed that the computational efficiency of the DSFS algorithm was improved by about 1.2 times compared with the Q-RRT*algorithm while ensuring correct computational results.

水分调节协同微波处理米糠储藏期品质变化规律的研究

研究采用微波协同调节水分探讨了对米糠中酶活变化、储藏期米糠品质以及生理活性物质变化规律。结果表明:调节初始含水量对微波稳定化米糠具有明显的协同增效作用,初始水质量分数为24%时,过氧化物酶酶活为0,脂肪酶约为7%,多酚氧化酶约为3%;初始水质量分数为24%,微波功率1 000 W,微波时间180 s和料层厚度1.5 cm,米糠在12周储藏期时的酸价和过氧化值分别为21.45 mg KOH/g和4.22 mmol/kg,相比较原料(初始水质量分数11%),酸价降低约35%,过氧化值降低约26%;影响因素大小依次为:米糠初始水质量分数>微波功率>微波时间>料层厚度;生育酚和生育三烯酚总含量12周储藏期内线性下降趋近于0,只有在较高初始含水量下第8周时出现阶段上升后再下降,微波处理对γ-生育酚和γ-生育三烯酚含量影响较大,平均降低50%和33%,较高初始含水量处理的米糠α-生育三烯酚含量(200 mg/kg)较低;米糠油脂肪酸组成在储藏期内棕榈酸含量增加,油酸和亚油酸含量降低;谷维素含量出现先增加后下降的趋势,在8周时达到最大1.35%。水分调节对储藏期米糠脂肪酸组成和谷维素含量无显著性影响。综合考虑,为了得到较好品质的米糠原料,储藏的时间不宜超过2周。

Software Defect Prediction Method Based on Stable Learning

The purpose of software defect prediction is to identify defect-prone code modules to assist software quality assurance teams with the appropriate allocation of resources and labor.In previous software defect prediction studies,transfer learning was effective in solving the problem of inconsistent project data distribution.However,target projects often lack sufficient data,which affects the performance of the transfer learning model.In addition,the presence of uncorrelated features between projects can decrease the prediction accuracy of the transfer learning model.To address these problems,this article propose a software defect prediction method based on stable learning(SDP-SL)that combines code visualization techniques and residual networks.This method first transforms code files into code images using code visualization techniques and then constructs a defect prediction model based on these code images.During the model training process,target project data are not required as prior knowledge.Following the principles of stable learning,this paper dynamically adjusted the weights of source project samples to eliminate dependencies between features,thereby capturing the“invariance mechanism”within the data.This approach explores the genuine relationship between code defect features and labels,thereby enhancing defect prediction performance.To evaluate the performance of SDP-SL,this article conducted comparative experiments on 10 open-source projects in the PROMISE dataset.The experimental results demonstrated that in terms of the F-measure,the proposed SDP-SL method outperformed other within-project defect prediction methods by 2.11%-44.03%.In cross-project defect prediction,the SDP-SL method provided an improvement of 5.89%-25.46% in prediction performance compared to other cross-project defect prediction methods.Therefore,SDP-SL can effectively enhance within-and cross-project defect predictions.

Analysis and monitoring of drug therapy in a patient with peptic ulcer complicated by infection:A case report

BACKGROUND The role of primary-level medical pharmacists in medical institutions in China is limited;therefore,it is necessary to explore the role of pharmacists in the process of drug treatment.CASE SUMMARY A Chinese pharmacist participated in the complete treatment of a patient with a duodenal ulcer.The rationale for drug treatment was evaluated,and adjustments were made to the antacid and anti-infective regimen,as well as the dose and frequency of administration.Body temperature,routine blood examination,and adverse drug reactions were strictly monitored.During treatment,the pharmacist recommended anti-infective therapy with ampicillin-sulbactam,which effectively controlled the infection.Additionally,the pharmacist suggested changing famotidine to lansoprazole for acid suppression and gastroprotective treatment,combined with Chinese patent medicine such as Kangfuxin Liquid.This is the first case report of a pharmacist in primary-level medical institutions adjusting drug use for patients with duodenal ulcer and pulmonary infection.CONCLUSION A pharmacist participated in the treatment process,provided individualized medication adjustment,and achieved good clinical results.

Cross-Project Software Defect Prediction Based on SMOTE and Deep Canonical Correlation Analysis

Cross-Project Defect Prediction(CPDP)is a method that utilizes historical data from other source projects to train predictive models for defect prediction in the target project.However,existing CPDP methods only consider linear correlations between features(indicators)of the source and target projects.These models are not capable of evaluating non-linear correlations between features when they exist,for example,when there are differences in data distributions between the source and target projects.As a result,the performance of such CPDP models is compromised.In this paper,this paper proposes a novel CPDP method based on Synthetic Minority Oversampling Technique(SMOTE)and Deep Canonical Correlation Analysis(DCCA),referred to as S-DCCA.Canonical Correlation Analysis(CCA)is employed to address the issue of non-linear correlations between features of the source and target projects.S-DCCA extends CCA by incorporating the MlpNet model for feature extraction from the dataset.The redundant features are then eliminated by maximizing the correlated feature subset using the CCA loss function.Finally,cross-project defect prediction is achieved through the application of the SMOTE data sampling technique.Area Under Curve(AUC)and F1 scores(F1)are used as evaluation metrics.This paper conducted experiments on 27 projects from four public datasets to validate the proposed method.The results demonstrate that,on average,our method outperforms all baseline approaches by at least 1.2%in AUC and 5.5%in F1 score.This indicates that the proposed method exhibits favorable performance characteristics.