Detection accuracy of target accelerations based on vortex electromagnetic wave in keyhole space

The influence of the longitudinal acceleration and the angular acceleration of detecting target based on vortex electromagnetic waves in keyhole space are analyzed.The spectrum spreads of different orbital angular momentum(OAM)modes in different non-line-of-sight situations are simulated.The errors of target accelerations in detection are calculated and compared based on the OAM spectra spreading by using two combinations of composite OAM modes in the keyhole space.According to the research,the effects about spectrum spreads of higher OAM modes are more obvious.The error in detection is mainly affected by OAM spectrum spreading,which can be reduced by reasonably using different combinations of OAM modes in different practical situations.The above results provide a reference idea for investigating keyhole effect when vortex electromagnetic wave is used to detect accelerations.

翼点keyhole入路处理前循环及鞍周部位病变

目的介绍颞部鬓角皮肤小切口,翼点keyhole骨孔(2.5cm×3cm)入路处理前循环动脉瘤、前颅窝底及鞍周部位病变。方法病人仰卧、面转向对侧60°。沿鬓角的发际前缘做一皮肤切口,长约6～7cm。从额骨颧突下剥离颞肌,显露出翼点。颅骨钻孔后直接用咬骨钳咬成3cm×3cm骨孔。2∶3显露额颞叶,切开硬脑膜,分离外侧裂,进入手术区。结果采用此keyhole开颅术进行各类手术52例,手术进行顺利。结论翼点keyhole开颅术具有对外观影响小,开关颅时间短(15～20min),创伤轻微等优点。

Image processing of weld pool and keyhole in Nd:YAG laser welding of stainless steel based on visual sensing

In order to obtain good welding quality, it is necessary to apply quality control because there are many influencing factors in laser welding process. The key to realize welding quality control is to obtain the quality information. Abundant weld quality information is contained in weld pool and keyhole. Aiming at Nd：YAG laser welding of stainless steel, a coaxial visual sensing system was constructed. The images of weld pool and keyhole were obtained. Based on the gray character of weld pool and keyhole in images, an image processing algorithm was designed. The search start point and search criteria of weld pool and keyhole edge were determined respectively.

Keyhole信道下正交空时分组码的性能分析

在某些加MIMO(multiple-input multiple-output)衰落环境下,发射或者接收信号不相关,但是系统的信道容量依然很低,这种现象称之为Keyhole效应.本文针对Keyhole衰落加MIMO信道,在任意的收发天线数目下,对正交空时分组码进行了性能分析,通过矩生成函数的分析方法,分析了Keyhole信道可以提供的分集增益,给出严格的封闭的符号错误概率表达式.并且针对收发天线数目不相等的情况,给出简洁的近似结果.在Keyhole衰落信道下的计算机仿真表明,严格的分析结果与仿真结果一致,在高信噪比下,近似表达式也与仿真的结果吻合.

Nakagami-m Keyhole衰落信道下MIMO系统容量及天线选择

本文全面地分析了在Nakagami-m衰落信道下具有“匙孔”(keyhole)效应时正交块空时编码(STBCs)的多输入多输出(MIMO)系统的容量以及误比特率(BER)性能,导出了该系统环境下平均容量的紧下边界值,同时得出了系统中断概率的具体表达式及其误码率的近似值.在此基础上分析了Keyhole MIMO信道下的天线选择问题.最后进行了仿真,其结果与理论分析一致.研究表明,在Keyhole MIMO信道中,采用天线选择仍然能够获得与全复杂系统相同的分集增益.

Keyhole术式在腹腔镜造口旁疝修补术中的应用

目的探讨Keyhole术式在造口旁疝修补术中的应用效果。方法回顾性分析2013年4月至2014年12月河南省人民医院胃肠外科实施Keyhole术治疗的8例直肠癌术后结肠造口旁疝患者的临床资料。结果 8例手术均获成功。手术时间为48～162 min,平均106 min。疝环直径3～5 cm,平均4.2 cm。术中出血5～75 ml,平均20 ml。术后2例发生补片区域血清肿,经彩超引导下穿刺引流后痊愈,未发生与手术相关的感染。术后住院时间为4～8 d,平均6.5 d。术后随访3～24个月,2例复发。结论 Keyhole术式在腹腔镜造口旁疝修补术中安全、可行,早期的临床疗效较理想,但复发率高,远期效果差。

颈神经在keyhole入路后路经皮内镜下颈椎间盘切除术中的尸体解剖研究

目的通过模拟keyhole入路后路经皮内镜下颈椎间盘切除术,研究颈神经根与周围组织的局部解剖关系。方法选用6具福尔马林浸泡的成人尸体颈椎标本,模拟keyhole入路后路经皮内镜下颈椎间盘切除术,去除椎旁肌肉等软组织以暴露“V”点。以“V”点为中心,5 mm为半径设定keyhole范围。测量双侧C_(3~4)到C_(6~7)骨质厚度范围及keyhole范围内颈神经根与周围组织解剖关系。结果C_(3~4)到C_(6~7)上位椎板下缘的骨质厚度、下位椎板上缘的骨质厚度、关节突骨质厚度的数值范围分别为5.11~5.69 mm、5.09~5.42 mm、7.15~8.81 mm。C_(5~6)和C_(6~7)硬膜显露的长度明显大于C_(3~4)和C_(4~5);C_(6)和C_(7)神经根与硬膜间的距离明显大于C_(4)和C_(5)神经根;C_(3~4)至C_(6~7)“V”点距硬膜距离各节段逐渐增加;C_(5~6)和C_(6~7)“V”点距神经根距离明显大于C_(3~4)和C_(4~5)节段;差异均具有统计学意义(P<0.05)。结论本研究所描述的keyhole入路对于颈椎神经根减压是适合的。C_(5~6)和C_(6~7)应适当多去除“V”点外侧关节突骨质,以便更好避开硬膜及显露神经根。

JTRAS/OSTBC系统在Keyhole Rayleigh信道下的性能分析

在Keyhole Rayleigh衰落信道下,研究了使用联合发射/接收天线选择(JTRAS)和正交空时分组码(OSTBC)的多输入多输出(MIMO)系统的平均符号误码率(ASEP)性能。基于标量加性高斯白噪声(AWGN)信道的方法,推导出了系统在接收端信噪比的表达武。然后对不同条件下的ASEP性能做了数值仿真,验证了理论分析结果的正确性。仿真结果表明:随着发射/接收天线数的增加,JTRAS/OSTBC系统的ASEP性能得到了很好的改善。

Keyhole历史影像配准方法研究

根据历史影像的特点,研究对于Keyhole为例的历史影像进行配准的方法和存在的问题.经过半个世纪的变迁,如果要在以前的影像图上找到现在的相应地物点,不仅需要人工识别,更重要的是根据历史事件分析哪些才是肯定不变的地物,有了历史的依据,判断同名地物点才有根据,配准起来才能有保证.

Numerical analysis of plasma arc physical characteristics under additional constraint of keyhole

The physical characteristics of a plasma arc affect the stability of the keyhole and weld pool directly during keyhole plasma arc welding(KPAW).There will be significant change for these characteristics because of the interaction between the keyhole weld pool and plasma arc after penetration.Therefore,in order to obtain the temperature field,flow field,and arc pressure of a plasma arc under the reaction of the keyhole,the physical model of a plasma arc with a pre-set keyhole was established.In addition,the tungsten and base metal were established into the calculated domain,which can reflect the effect of plasma arc to weld pool further.Based on magneto hydrodynamics and Maxwell equations,a twoSdimensional steady state mathematical model was established.Considering the heat production of anode and cathode,the distribution of temperature field,flow field,welding current density,and plasma arc pressure were solved out by the finite difference method.From the calculated results,it is found that the plasma arc was compressed a second time by the keyhole.This additional constraint results in an obvious rise of the plasma arc pressure and flow velocity at the minimum diameter place of the keyhole,while the temperature field is impacted slightly.Finally,the observational and metallographic experiments are conducted,and the shapes of plasma arc and fusion line agree with the simulated results generally.

NTWV-based sensing keyhole dimension in plasma arc welding

During stable keyhole plasma arc welding, the pilot arc and the transferred arc exist at the meantime, and the arcs can be considered as a composition of two parts inside and outside the nozzle, respectively. Under the mechanical constriction and thermal contraction effects, the inside arc has certain arc length, electron density and arc profile etc. inducing constant tungsten-to-nozzle voltage. However, the arc outside the nozzle diverges at about 5 degrees and has certain characteristics similar to the free arcs. The nozzle-to-workpiece voltage （NTWV） depends mainly on the length of the arc, which gets bigger as increasing of the weld penetration and keyhole size. The NTWV sensor is developed for monitoring NTWV in real time. The welding experiments are designed to get different penetrations and keyhole sizes. It is found that as the weld penetration and the keyhole size increase, NTWV also increases linearly. The NTWV signals can be used as the feedback variable in automatic control of keyhole plasma arc welding.

Detection of keyhole entrance and exit in plasma arc welding

Sensing of keyhole shape and size is important for controlling of plasma arc welding process. In this study, a synchronous vision system is developed by using two CCD cameras to observe the keyhole entrance and exit simultaneously. Experiments are conducted on stainless steel workpiece, Whole keyhole exit image and part of keyhole entrance image are captured synchronously under different welding conditions. Image processing and calibration algorithms are proposed. The boundary and front point of the keyhole entrance and exit are extracted respectively. The effects of welding current and welding speed on ,front point of keyhole entrance and exit are analyzed. Compared to the front point of the keyhole entrance, the position of the front point of the keyhole exit is better to reflect the variation of the welding parameters.

Process control based on double-side image sensing of keyhole puddle for the VPPA welding of aluminum alloys

The double side image sensing of the keyhole puddle in the variable polarity plasma arc welding of aluminum alloys has been investigated in this paper, to extract the characteristically geometrical size of the keyhole and to realize the feedback controlling for weld formation in the welding process. Some geometrical sizes of the visible keyhole in the front and back images such as the width, height, area, etc. can be used to monitor both the keyhole puddle and the weld formation in the welding process. Under the condition of the varied heat sink, varied gap and misalignment, the trend from normal welding to cutting can be reflected from the variations of geometrical sizes of the keyhole puddle respectively. The keyhole area, the keyhole height and the shape parameters of the keyhole puddle are the key parameters which reflect the trend from normal welding to cutting when meeting the condition of the varied heat sink, varied gap and misalignment respectively. The algorithm for the image processing of the keyhole puddle and the periphery extracting of the visible keyhole developed in the paper can be used to determine real timely the geometrical sizes of the visible keyhole. Artificial neural network is applied to establish the model for predicting the geometrical sizes of the back keyhole puddle. The inputs of the model are the geometrical sizes of the front keyhole puddle and the weld parameters, the outputs of the model are the geometrical sizes of the back keyhole puddle. The model can be used to control the stability of keyhole and the weld formation.

基于Keyhole和Landsat MSS融合影像的土地利用变化监测研究——以杭州湾南岸为例

以杭州湾南岸为研究区,利用1980年9月20日的Keyhole遥感影像与同一时期的Landsat MSS遥感影像,通过融合处理,获得既具有高空间分辨率又有多光谱分辨率的历史遥感影像,填补历史高分辨率遥感影像的空缺.研究结果将历史土地利用类型变化监测时间序列推前的同时,提高杭州湾南岸土地利用变化监测的精度.研究中将使用历史融合影像对杭州湾土地利用类型变化进行监测,同时结合1990-2020年4景Landsat遥感影像,获得杭州湾南岸地区近41年的土地利用情况,辅以前人的目视解译结果图,得到分类精度>90%的土地覆被利用分类结果.从面积变化、类型转化、年均变化率3方面分析讨论了1980-2020年间杭州湾南岸地区土地利用的时空变化特征.结果表明:1980-1990年,杭州湾南岸库塘呈减少的趋势,耕地逐渐向海岸地区扩张;1990-2020年,城市的扩张面积不断增加且呈现向海岸扩张的趋势,库塘的面积增加明显,主要表现在人工养殖场继续向海岸扩张.城市的发展是影响杭州湾南岸土地利用变化的主要因素,并且在杭州湾城市规划的同时应该充分考虑其生态环境的问题,加强自然湿地保护,严格控制自然湿地的开发规模,坚持可持续发展,在保护湿地的基础上进行合理的开发利用.

经眉眶上keyhole入路处理颅前底、鞍区病变

目的探讨经眉眶上keyhole入路治疗颅前底、鞍区病变的适应证和手术技巧。方法回顾性分析经眉眶上keyhole入路治疗46例颅前底、鞍区病变病人的临床资料,包括嗅沟脑膜瘤13例,鞍结节脑膜瘤17例,垂体柄占位3例,垂体瘤3例,颅内动脉瘤10例。结果嗅沟脑膜瘤、鞍结节脑膜瘤、垂体瘤均全切,垂体柄占位活检成功,动脉瘤成功夹闭。术后脑脊液鼻漏2例,新增尿崩症1例,对症治疗后痊愈。随访46例,时间6～21个月,平均9个月,肿瘤、动脉瘤未见复发,余病情稳定。结论经眉眶上keyhole入路治疗选择性颅前底、鞍区病变安全有效。

Keyhole Foraminotomy via a Percutaneous Posterior Full-endoscopic Approach for Cervical Radiculopathy:An Advanced Procedure and Clinical Study

Endoscopic cervical foraminotomy is increasingly used for cervical spondylotic radiculopathy(CSR),but there is great concern about radiation exposure because of the heavy dependence of this surgical method on fluoroscopy.The objective of this study was to introduce in detail an advanced surgical technique of keyhole foraminotomy via a percutaneous posterior full-endoscopic approach as a treatment for CSR and investigate its clinical outcomes.We retrospectively reviewed 33 consecutive patients with CSR who underwent keyhole foraminotomy via a percutaneous posterior full-endoscopic approach from October 2015 to April 2017.The patients’general characteristics,including operative time,blood loss,hospital stay,complications,and recurrence,were obtained.Clinical outcomes were evaluated using the visual analogue scale(VAS)for radicular pain,the neck disability index(NDI)for functional assessment,and the modified MacNab criteria for patient satisfaction.All operations were successfully performed(mean operation time,62 min),with no measurable blood loss or severe related complications.The mean follow-up was 25 months.The VAS and NDI scores were significantly improved as compared with those in the preoperative period(preoperative vs.final follow-up:7.6±1.6 vs.3.83±7.34 for VAS,P<0.01;69.5%±10.5%vs.17.54%±13.40%for NDI,P<0.01).Of the 33 patients,32(97.0%)had good-to-excellent global outcomes and all patients obtained symptomatic improvement.In conclusion,keyhole foraminotomy via a percutaneous posterior full-endoscopic approach is an efficient,safe,and feasible procedure for the treatment of CSR.Its simplified single-step blunt incision for localization appears to decrease radiation exposure risks.

Finite element analysis of keyhole plasma arc welding based on an adaptive heat source mode

An adaptive heat source mode is proposed to account for the keyhole effect and the characteristics of volumetric distribution along the direction of the workpiece thickness. Finite element analysis of the temperature field in keyhole plasma arc welding is conducted and the weld geometry is obtained. The predicted results are in agreement with the measured ones.

Study on stress and deformation of keyhole gas tungsten arc-welded joints

Keyhole gas tungsten arc welding(K-TIG)of Q345 low alloy steel plates was simulated by using SYSWELD software.The temperature field of the K-TIG welding process was simulated with three different combined heat sources and was compared with the weld profile that was obtained experimentally.The temperature field that was obtained by a combination of a double ellipsoid heat source on the upper half and a three-dimensional Gauss heat source on the lower half was similar to the real situation.The effects of plate thickness,gap and welding speed on the deformation and stress of the K-TIG welded joints were investigated by K-TIG welding numerical simulation.A reduction in the thickness of the weld plates reduced the z-direction deformation and transverse residual stress;an appropriate gap reduced the residual stress and an increase in the welding speed reduced deformation after welding,but did not help to control the residual stress after welding.

北欧食品Keyhole标签系统的做法与启示

北欧国家实施的Keyhole标签系统的建立与发展,为世界各国发展食品包装正面(Front of Package,FOP)标签系统提供了丰富的经验。本文介绍了北欧国家食品Keyhole标签系统的主要做法,分析了Keyhole标签系统发展面临的挑战,并由此建议我国实施FOP标签系统需要具备充分的科学依据、制定指导性规定、实施政府监管以及不断的革新等。

Numerical Simulation of Current Density Distribution in Keyhole Double-Sided Arc Welding

In the double-sided arc welding system (DSAW) composing of PAW+TIG arcs, the PAW arc is guided by the TIG arc so that the current mostly flows through the direction of the workpiece thickness and the penetration is greatly improved. To analyze the current density distribution in DSAW is beneficial to understanding of this process. Considering all kinds of dynamic factors acting on the weldpool, this paper discusses firstly the surface deformation of the weldpool and the keyhole formation in PAW+TIG DSAW process on the basis of the magnetohydrodynamic theory and variation principles. Hence, a model of the current density distribution is developed. Through numerical simulation, the current density distribution in PAW+TIG DSAW process is quantitatively analyzed. It shows that the minimal radius of keyhole formed in PAW+TIG DSAW process is 0.5 mm and 89.5 percent of current flows through the keyhole.