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Journal articles on the topic 'Multiple output'

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Published: 4 June 2021
Last updated: 21 February 2023

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1

Kang, Byung-Soo, Ji-Hoon Bae, Eun-Jung Yang, and Kyung-Tae Kim. "3-D Multiple-Input Multiple-Output Interferometric ISAR Imaging." Journal of Korean Institute of Electromagnetic Engineering and Science 26, no. 6 (June 30, 2015): 564–71. http://dx.doi.org/10.5515/kjkiees.2015.26.6.564.

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2

Fernández, Carmen, Gary Koop, and Mark F. J. Steel. "Multiple-Output Production With Undesirable Outputs." Journal of the American Statistical Association 97, no. 458 (June 2002): 432–42. http://dx.doi.org/10.1198/016214502760046989.

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3

Smallwood, David O. "Multiple-Input Multiple-Output (MIMO) Linear Systems Extreme Inputs/Outputs." Shock and Vibration 14, no. 2 (2007): 107–31. http://dx.doi.org/10.1155/2007/701837.

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A linear structure is excited at multiple points with a stationary normal random process. The response of the structure is measured at multiple outputs. If the autospectral densities of the inputs are specified, the phase relationships between the inputs are derived that will minimize or maximize the trace of the autospectral density matrix of the outputs. If the autospectral densities of the outputs are specified, the phase relationships between the outputs that will minimize or maximize the trace of the input autospectral density matrix are derived. It is shown that other phase relationships and ordinary coherence less than one will result in a trace intermediate between these extremes. Least favorable response and some classes of critical response are special cases of the development. It is shown that the derivation for stationary random waveforms can also be applied to nonstationary random, transients, and deterministic waveforms.
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4

Yuanquan Wang, Yuanquan Wang, and Nan Chi Nan Chi. "Indoor gigabit 2 × 2 imaging multiple-input–multiple-output visible light communication." Chinese Optics Letters 12, no. 10 (2014): 100603–6. http://dx.doi.org/10.3788/col201412.100603.

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5

Grip, Håvard Fjær, Ali Saberi, and Xu Wang. "Stabilization of Multiple-Input Multiple-Output Linear Systems With Saturated Outputs $ $." IEEE Transactions on Automatic Control 55, no. 9 (September 2010): 2160–64. http://dx.doi.org/10.1109/tac.2010.2051250.

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6

Mizumoto, Ikuro, Seiya Fujii, and Hiroshi Mita. "Output Feedback-Based Output Tracking Control with Adaptive Output Predictive Feedforward for Multiple-Input–Multiple-Output Systems." Industrial & Engineering Chemistry Research 58, no. 26 (February 18, 2019): 11382–91. http://dx.doi.org/10.1021/acs.iecr.9b00107.

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7

Smallwood, David. "Minimum Input Trace for Multiple Input Multiple Output Linear Systems." Journal of the IEST 56, no. 2 (October 1, 2013): 57–67. http://dx.doi.org/10.17764/jiet.56.2.41344333010617q6.

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Specification of the cross spectra for a multiple-input/multiple-output (MIMO) vibration test is challenging. This paper presents a method for tests where the specifications of the output (the control points) autospectra are available. The autospectra of the outputs are specified and cross spectra between the outputs are derived that will minimize the trace of the autospectra of the inputs (the drive signals) with the constraint that the input spectral density matrix is positive definite. The hypothesis is that nature likes a minimum energy solution.
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8

Lauwers, Oliver, Oscar Mauricio Agudelo, and Bart De Moor. "A Multiple-Input Multiple-Output Cepstrum." IEEE Control Systems Letters 2, no. 2 (April 2018): 272–77. http://dx.doi.org/10.1109/lcsys.2018.2828992.

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9

Laurı́, D., J. V. Salcedo, M. Martı́nez, and S. Garcı́a-Nieto. "Model predictive control relevant identification: multiple input multiple output against multiple input single output." IET Control Theory & Applications 4, no. 9 (September 1, 2010): 1756–66. http://dx.doi.org/10.1049/iet-cta.2009.0482.

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10

Shanmugam, Kirubanandan. "System Identification and Characteristics of Multiple Input and Multiple Output (MIMO) Water Mixing Equipment." BOHR International Journal of Engineering 1, no. 1 (2022): 30–34. http://dx.doi.org/10.54646/bije.006.

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Multiple input and multiple output (MIMO) water mixing equipment is a prototype used to study the process control concepts. This equipment is used for manipulating multiple inputs and their effect on the outputs. The input variables are hot water (HW) temperature, cold water (CW) temperature, and flow rate of HW and CW. The output variables are the level of the water in the tank, the temperature of the water, and the flow of outlet water. The changes in controlled variables with the effect of manipulated variables were investigated. The transfer function for the given experimental setup was developed and the time constant for the given system was also developed. These transfer function and analysis of MIMO can be useful for the analysis of various MIMO-based process equipments.
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11

Ouladsine, M., A. EL Hajjaji, and A. Rachid. "Identification of interconnected multiple-input multiple-output systems: Application to a multiple-input multiple-output thermal process." International Journal of Systems Science 30, no. 7 (January 1999): 779–85. http://dx.doi.org/10.1080/002077299292074.

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12

Hsu, Rick C. J., Akhil Shah, and Bahram Jalali. "Coherent Optical Multiple-Input Multiple-Output communication." IEICE Electronics Express 1, no. 13 (2004): 392–97. http://dx.doi.org/10.1587/elex.1.392.

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13

Rabideau, D. J. "Multiple-input multiple-output radar aperture optimisation." IET Radar, Sonar & Navigation 5, no. 2 (2011): 155. http://dx.doi.org/10.1049/iet-rsn.2010.0034.

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14

SHAMANNA, M., K. CAMERON, and S. R. WHITAKER. "Multiple-input, multiple-output pass transistor logic." International Journal of Electronics 79, no. 1 (July 1995): 33–45. http://dx.doi.org/10.1080/00207219508926248.

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15

Gang Shi and A. Nehorai. "Macrocell multiple-input multiple-output system analysis." IEEE Transactions on Wireless Communications 5, no. 5 (May 2006): 1076–85. http://dx.doi.org/10.1109/twc.2006.1633360.

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16

Salerian, John, and Chris Chan. "Restricting Multiple-Output Multiple-Input DEA Models by Disaggregating the Output–Input Vector." Journal of Productivity Analysis 24, no. 1 (September 2005): 5–29. http://dx.doi.org/10.1007/s11123-005-3038-4.

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17

Førsund, Finn R. "Good Modelling of Bad Outputs: Pollution and Multiple-Output Production." International Review of Environmental and Resource Economics 3, no. 1 (August 13, 2009): 1–38. http://dx.doi.org/10.1561/101.00000021.

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18

An, Changyoung, and Heung-Gyoon Ryu. "Design and Performance Evaluation of MIMO(Multiple Input Multiple Output) System Using OTFS(Orthogonal Time Frequency Space) Modulation." Journal of Korean Institute of Electromagnetic Engineering and Science 28, no. 6 (June 2017): 444–51. http://dx.doi.org/10.5515/kjkiees.2017.28.6.444.

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19

Zelnik, Richard, and Michal Prazenica. "Multiple Output Flyback Converter Design." Transactions on Electrical Engineering 8, no. 3 (2019): 32–39. http://dx.doi.org/10.14311/tee.2019.3.03.

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20

Zelnik, Richard, and Michal Prazenica. "Multiple Output Flyback Converter Design." TRANSACTIONS ON ELECTRICAL ENGINEERING 8, no. 3 (March 30, 2020): 32–39. http://dx.doi.org/10.14311/tee.2019.3.032.

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DC-DC converters are mainly used to provide required output voltage by suitably controlling the pulse width modulated (PWM) signal given to the gate of the fast-acting power electronics switches. The flyback converter is one such popular isolated DC-DC converter topology used to obtain regulated output voltage in low power applications. They are used as power supply systems in space technology and in many other industrial power electronics systems, where having constant voltage is very much essential. This paper presents the practical implementation of multiple output Flyback converter with MOSFET as a switching device. The designed converter is observed to have a good output voltage regulation and higher efficiency for the wide input voltage range.
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21

Deckers, Thomas, and Christoph Hanck. "MULTIPLE TESTING FOR OUTPUT CONVERGENCE." Macroeconomic Dynamics 18, no. 1 (May 25, 2012): 199–214. http://dx.doi.org/10.1017/s1365100512000338.

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This paper tests for output convergence across n = 51 economies, employing the definition of Pesaran [Journal of Econometrics 138, 312–355 (2007)]. The definition requires output gaps to be stationary around a constant mean. But when all n(n − 1)/2 pairs of log per capita output gaps are considered, this results in more than 1,000 unit root tests to be conducted. Hence, because of the ensuing multiplicity of the testing problem, a nontrivial number of output gaps will be falsely declared to be stationary when each of the n(n − 1)/2 hypotheses is tested at some conventional level like 5%. To solve the problem, we employ recent multiple testing techniques that allow us to bound the expected fraction of false rejections at a desired level. Monte Carlo results illustrate the usefulness of the techniques. The empirical results show that the data do not support the notion of output convergence after controlling for multiplicity.
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22

Pankiewicz, B. "Multiple output CMOS current amplifier." Bulletin of the Polish Academy of Sciences Technical Sciences 64, no. 2 (June 1, 2016): 301–6. http://dx.doi.org/10.1515/bpasts-2016-0034.

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Abstract In this paper the multiple output current amplifier basic cell is proposed. The triple output current mirror and current follower circuit are described in detail. The cell consists of a split nMOS differential pair and accompanying biasing current sources. It is suitable for low voltage operation and exhibits highly linear DC response. Through cell devices scaling, not only unity, but also any current gains are achievable. As examples, a current amplifier and bandpass biquad section designed in CMOS TSMC 90nm technology are presented. The current amplifier is powered from a 1.2V supply. MOS transistors scaling was chosen to obtain output gains equal to -2, 1 and 2. Simulated real gains are -1.941, 0.966 and 1.932 respectively. The 3dB passband obtained is above 20MHz, while current consumption is independent of input and output currents and is only 7.77μA. The bandpass biquad section utilises the previously presented amplifier, two capacitors and one resistor, and has a Q factor equal to 4 and pole frequency equal to 100 kHz.
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23

Pasalic, E., and W. G. Zhang. "On multiple output bent functions." Information Processing Letters 112, no. 21 (November 2012): 811–15. http://dx.doi.org/10.1016/j.ipl.2012.07.009.

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24

Venkataramani, R., and Y. Bresler. "Multiple-Input Multiple-Output Sampling: Necessary Density Conditions." IEEE Transactions on Information Theory 50, no. 8 (August 2004): 1754–68. http://dx.doi.org/10.1109/tit.2004.831755.

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25

Persson, D., T. Eriksson, and E. G. Larsson. "Amplifier-Aware Multiple-Input Multiple-Output Power Allocation." IEEE Communications Letters 17, no. 6 (June 2013): 1112–15. http://dx.doi.org/10.1109/lcomm.2013.043013.130050.

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26

Behjati, Hamid, and Ali Davoudi. "A Multiple-Input Multiple-Output DC–DC Converter." IEEE Transactions on Industry Applications 49, no. 3 (May 2013): 1464–79. http://dx.doi.org/10.1109/tia.2013.2253440.

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27

Peng, Haipeng, Gang Hu, Lixiang Li, Yixian Yang, and Jinghua Xiao. "Constructing Dynamic Multiple-Input Multiple-Output Logic Gates." Mathematical Problems in Engineering 2011 (2011): 1–12. http://dx.doi.org/10.1155/2011/380345.

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Investigation of computing devices with dynamic architecture which makes devices have reconfigurable ability is an interesting research direction for designing the next generation of computer chip. In this paper, we present a window threshold method to construct such dynamic logic architecture. Here, dynamic multiple-input multiple-output (MIMO) logic gates are proposed, analyzed, and implemented. By using a curve-intersections-based graphic method, we illustrate the relationships among the threshold, the control parameter, and the functions of logic gates. A noise analysis on all the parameters is also given. The chips based on the proposed schemes can be transformed into different arrangements of logic gates within a single clock cycle. With these schemes in hand, it is conceivable to build more flexible, robust, cost effective, yet general-purpose computing devices.
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28

Zheng, S., W. Shing Chan, and Y. M. Siu. "RF multiple-input multiple-output switchless front-end." Electronics Letters 42, no. 24 (2006): 1408. http://dx.doi.org/10.1049/el:20061924.

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29

Arulraj Merline, Arulraj Merline, and S. Thiruvengadam. "Multiple-input Multiple-output Radar Waveform Design Methodologies." Defence Science Journal 63, no. 4 (July 22, 2013): 393–401. http://dx.doi.org/10.14429/dsj.63.2537.

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30

Basar, Ertugrul. "Multiple-Input Multiple-Output OFDM with Index Modulation." IEEE Signal Processing Letters 22, no. 12 (December 2015): 2259–63. http://dx.doi.org/10.1109/lsp.2015.2475361.

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31

Abu-Ella, Omar, and Xiaodong Wang. "Large-scale multiple-input–multiple-output transceiver system." IET Communications 7, no. 5 (March 26, 2013): 471–79. http://dx.doi.org/10.1049/iet-com.2012.0471.

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32

Altın, Gökhan, Ümit Aygölü, Ertugrul Basar, and Mehmet E. Çelebi. "Multiple-input–multiple-output cooperative spatial modulation systems." IET Communications 11, no. 15 (October 19, 2017): 2289–96. http://dx.doi.org/10.1049/iet-com.2016.0977.

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33

Grau, Alfred, Hamid Jafarkhani, and Franco De Flaviis. "A reconfigurable multiple-input multiple-output communication system." IEEE Transactions on Wireless Communications 7, no. 5 (May 2008): 1719–33. http://dx.doi.org/10.1109/twc.2008.060905.

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34

Sharma, Abhishek, and Animesh Biswas. "Wideband multiple‐input–multiple‐output dielectric resonator antenna." IET Microwaves, Antennas & Propagation 11, no. 4 (February 16, 2017): 496–502. http://dx.doi.org/10.1049/iet-map.2016.0515.

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35

Jin, Yuanwei, JosÉ M. F. Moura, and Nicholas O'Donoughue. "Time Reversal in Multiple-Input Multiple-Output Radar." IEEE Journal of Selected Topics in Signal Processing 4, no. 1 (February 2010): 210–25. http://dx.doi.org/10.1109/jstsp.2009.2038983.

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36

Khalil, Ahmed Salih Ahmed, and Prof Kalid Hamid B. Abdallah. "Multiple-Input Multiple-Output of Wimax Network: Review." IOSR Journal of Electronics and Communication Engineering 12, no. 02 (May 2017): 81–87. http://dx.doi.org/10.9790/2834-1202038187.

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37

Guo, Yina, Xiangning Zhao, Jianyu Li, Anhong Wang, and Wenwu Wang. "Blind Multiple-Input Multiple-Output Image Phase Retrieval." IEEE Transactions on Industrial Electronics 67, no. 3 (March 2020): 2220–30. http://dx.doi.org/10.1109/tie.2019.2901661.

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38

Heath, Robert W., Erik G. Larsson, Ross Murch, Arye Nehorai, and Murat Uysal. "Special Issue: Multiple-Input Multiple-Output (MIMO) Communications." Wireless Communications and Mobile Computing 4, no. 7 (2004): 693–96. http://dx.doi.org/10.1002/wcm.247.

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39

Yamasaki, Yudai, Ryosuke Ikemura, Motoki Takahashi, Shigehiko Kaneko, and Akane Uemichi. "Multiple-input multiple-output control of diesel combustion using a control-oriented model." International Journal of Engine Research 20, no. 10 (February 10, 2019): 1005–16. http://dx.doi.org/10.1177/1468087418820739.

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In this study, a multiple-input multiple-output feedforward controller for use with multiple-point fuel injection systems is applied to a diesel engine using an original control-oriented model. The target-tracking performance of this multiple-input multiple-output feedforward controller was then tested in terms of how well the controller adjusts the fuel delivery ratios to the pilot injection, pre-injection, main fuel injection, and the main fuel injection timing, and controls the in-cylinder peak pressure and its timing. Control experiments are conducted at different engine outputs and speeds while changing the targets of the in-cylinder peak pressure and its timing. The controller is able to track the varying targets within an acceptable error included in the original model. The calculation time, which is almost double that of a single-input single-output controller, is sufficiently fast to derive the applicable inputs.
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40

Turhan, Mert, Juan C. Castellanos, Marcel A. M. Hendrix, Jorge L. Duarte, and Elena A. Lomonova. "Multiple-Output DC-DC Converters with a Reduced Number of Active and Passive Components." Journal of Low Power Electronics and Applications 9, no. 3 (September 18, 2019): 28. http://dx.doi.org/10.3390/jlpea9030028.

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Multiple-output converters have been widely used where individual outputs are required. Compared with conventional separate converters, the advantage of multiple outputs is to have a lower number of active and passive components. In this paper, first, a pulse-width-modulation (PWM)-pulse-frequency-modulation (PFM) method is used for two-output converters that have only one coil and one active switch. Secondly, three-output converter topologies are proposed where the third output is controlled by phase delay (PD). These converters need only two coils and two active switches to regulate three outputs. How to obtain PD at different switching frequencies is discussed next, and a PWM-PFM-PD controlled five-output buck converter is presented. The proposed solution uses only two active switches and two magnetic cores to adjust five-output voltages independently. A modeling and digital control method are proposed in order to regulate the five output voltages. A prototype circuit with independent 15 V/1.5 A, 12 V/1.5 A, 5 V/0.8 A, −5 V/0.6 A and 3.3 V/0.45 A outputs is assembled to validate the analysis, and it was proved that it regulates the output voltages at different loads.
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41

SAKANUSHI, Tatsuya, and Kou YAMADA. "2C22 Robust stabilizing simple repetitive controllers for multiple-input/multiple-output time-delay plants with specified input-output characteristic(The 12th International Conference on Motion and Vibration Control)." Proceedings of the Symposium on the Motion and Vibration Control 2014.12 (2014): _2C22–1_—_2C22–7_. http://dx.doi.org/10.1299/jsmemovic.2014.12._2c22-1_.

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42

Hyoung-Il Lee and Seung-Woo Seo. "Matching output queueing with a multiple input/output-queued switch." IEEE/ACM Transactions on Networking 14, no. 1 (February 2006): 121–32. http://dx.doi.org/10.1109/tnet.2005.863706.

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43

Li, Yiqing, Miao Jiang, Qi Zhang, Quanzhong Li, and Jiayin Qin. "Cooperative Non-Orthogonal Multiple Access in Multiple-Input-Multiple-Output Channels." IEEE Transactions on Wireless Communications 17, no. 3 (March 2018): 2068–79. http://dx.doi.org/10.1109/twc.2017.2788413.

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44

Nordio, A., and G. Taricco. "Linear receivers for the multiple-input multiple-output multiple-access channel." IEEE Transactions on Communications 54, no. 8 (August 2006): 1446–56. http://dx.doi.org/10.1109/tcomm.2006.878831.

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45

Celcer, T., T. Javornik, M. Mohorcic, and G. Kandus. "Virtual multiple input multiple output in multiple high-altitude platform constellations." IET Communications 3, no. 11 (2009): 1704. http://dx.doi.org/10.1049/iet-com.2008.0741.

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46

Keerthivasan, P., Alfy T. Jabin, J. Inthuja, N. Kaaviya, and Kumar Kumaraswamy Senthil. "FREQUENCY-SELECTIVE MULTIPLE INPUT-MULTIPLE OUTPUT (MIMO) 5G ANTENNA." Telecommunications and Radio Engineering 80, no. 4 (2021): 11–17. http://dx.doi.org/10.1615/telecomradeng.2021038402.

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47

Keerthivasan, P., Alfy T. Jabin, J. Inthuja, N. Kaaviya, and Kumar Kumaraswamy Senthil. "FREQUENCY-SELECTIVE MULTIPLE INPUT-MULTIPLE OUTPUT (MIMO) 5G ANTENNA." Telecommunications and Radio Engineering 80, no. 4 (2021): 11–17. http://dx.doi.org/10.1615/telecomradeng.2021038402.

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48

Love, D. J., R. W. Heath, and T. Strohmer. "Grassmannian beamforming for multiple-input multiple-output wireless systems." IEEE Transactions on Information Theory 49, no. 10 (October 2003): 2735–47. http://dx.doi.org/10.1109/tit.2003.817466.

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49

Tejera, P., W. Utschick, G. Bauch, and J. A. Nossek. "Subchannel Allocation in Multiuser Multiple-Input–Multiple-Output Systems." IEEE Transactions on Information Theory 52, no. 10 (October 2006): 4721–33. http://dx.doi.org/10.1109/tit.2006.881751.

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50

Xiao, Hailin, and Shan Ouyang. "Capacity of multiple-input multiple-output quantum depolarizing channels." Journal of Applied Physics 112, no. 3 (August 2012): 034903. http://dx.doi.org/10.1063/1.4739764.

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