Добавление plotstick-подобных стрелок на диаграмму рассеяния

Это мой первый пост здесь, я думал, что прочитал много ваших вопросов и ответов за последние 6 месяцев. В настоящее время я работаю над данными ADCP (Aquatic Doppler Current Profiler), обработанными пакетом "oce" от Дэна Келли (немного рекламы для тех, кто хочет иметь дело с океанографическими данными в R). Я не очень разбираюсь в R, и я прочитал вопрос об аблайне для функций уровня графика "Как добавить линии в график уровня, созданный с помощью решетки (аблайн как-то не работает)?",

В настоящее время у меня есть график уровня, представляющий временной ряд интенсивности эхо-сигнала (от обратного рассеянного сигнала, который отслеживается в то же время, что и ток) данных, снятых на глубине 10 м, эта линия глубины 10 м разделена на 25 строк, где каждое измерение делается по линии. (см часть кода, чтобы получить изображение того, что у меня есть)

(к сожалению, моя репутация не позволяет мне публиковать изображения). Затем я перехожу к созданию другого графика, который представляет стрелки текущего направления в виде:

• Длина каждой стрелки указывает на силу тока
• Его ориентация представлена ​​(все это делается путем взятия двух составляющих интенсивности тока (восток-запад / север-юг) и представления результирующего тока).
• Для каждого такта времени нарисована стрелка (таким образом, для 1000 столбцов моих примеров данных всегда есть две составляющие текущей интенсивности).
• Эти стрелки нарисованы в начале каждой измерительной ячейки, то есть в каждой строке моих данных, что позволяет иметь представление токов для всего водяного столба. Вы можете увидеть часть кода, чтобы иметь "как у меня" представление токов

Цель этого вопроса - понять, как я могу наложить эти два представления, рисуя мои текущие стрелки в каждой строке представленных данных, таким образом представляя как текущее направление, интенсивность и интенсивность эха. Здесь я не могу найти ссылку, чтобы описать, что я имею в виду, но это то, что я уже видел.

Я пробовал использовать функцию панели, которая кажется наилучшим вариантом, но мои знания R и работы с этим видом работ невелики, и я надеюсь, что у одного из вас может быть время и знания, чтобы помочь мне решить эту проблему. намного быстрее, чем я мог. Я, конечно, готов ответить на любые вопросы или дать точность. Я могу спросить намного больше, после 6 месяцев работы над большим кодом моя жажда к обучению теперь велика.

Код для представления данных: Вот некоторые данные для представления того, что у меня есть: U (север / юг, составляющая скорости) и V (восток / запад):

U1= c(0.043,0.042,0.043,0.026,0.066,-0.017,-0.014,-0.019,0.024,-0.007,0.000,-0.048,-0.057,-0.101,-0.063,-0.114,-0.132,-0.103,-0.080,-0.098,-0.123,-0.087,-0.071,-0.050,-0.095,-0.047,-0.031,-0.028,-0.015,0.014,-0.019,0.048,0.026,0.039,0.084,0.036,0.071,0.055,0.019,0.059,0.038,0.040,0.013,0.044,0.078,0.040,0.098,0.015,-0.009,0.013,0.038,0.013,0.039,-0.008,0.024,-0.004,0.046,-0.004,-0.079,-0.032,-0.023,-0.015,-0.001,-0.028,-0.030,-0.054,-0.071,-0.046,-0.029,0.012,0.016,0.049,-0.020,0.012,0.016,-0.021,0.017,0.013,-0.008,0.057,0.028,0.056,0.114,0.073,0.078,0.133,0.056,0.057,0.096,0.061,0.096,0.081,0.100,0.092,0.057,0.028,0.055,0.025,0.082,0.087,0.070,-0.010,0.024,-0.025,0.018,0.016,0.007,0.020,-0.031,-0.045,-0.009,-0.060,-0.074,-0.072,-0.082,-0.100,-0.047,-0.089,-0.074,-0.070,-0.070,-0.070,-0.075,-0.070,-0.055,-0.078,-0.039,-0.050,-0.049,0.024,-0.026,-0.021,0.008,-0.026,-0.018,0.002,-0.009,-0.025,0.029,-0.040,-0.006,0.055,0.018,-0.035,-0.011,-0.026,-0.014,-0.006,-0.021,-0.031,-0.030,-0.056,-0.034,-0.026,-0.041,-0.107,-0.069,-0.082,-0.091,-0.096,-0.043,-0.038,-0.056,-0.068,-0.064,-0.042,-0.064,-0.058,0.016,-0.041,0.018,-0.008,0.058,0.006,0.007,0.060,0.011,0.050,-0.028,0.023,0.015,0.083,0.106,0.057,0.096,0.055,0.119,0.145,0.078,0.090,0.110,0.087,0.098,0.092,0.050,0.068,0.042,0.059,0.030,-0.005,-0.005,-0.013,-0.013,-0.016,0.008,-0.045,-0.021,-0.036,0.020,-0.018,-0.032,-0.038,0.021,-0.077,0.003,-0.010,-0.001,-0.024,-0.020,-0.022,-0.029,-0.053,-0.022,-0.007,-0.073,0.013,0.018,0.002,-0.038,0.024,0.025,0.033,0.008,0.016,-0.018,0.023,-0.001,-0.010,0.006,0.053,0.004,0.001,-0.003,0.009,0.019,0.024,0.031,0.024,0.009,-0.009,-0.035,-0.030,-0.031,-0.094,-0.006,-0.052,-0.061,-0.104,-0.098,-0.054,-0.161,-0.110,-0.078,-0.178,-0.052,-0.073,-0.051,-0.065,-0.029,-0.012,-0.053,-0.070,-0.040,-0.056,-0.004,-0.032,-0.065,-0.005,0.036,0.023,0.043,0.078,0.039,0.019,0.061,0.025,0.036,0.036,0.062,0.048,0.073,0.037,0.025,0.000,-0.007,-0.014,-0.050,-0.014,0.007,-0.035,-0.115,-0.039,-0.113,-0.102,-0.109,-0.158,-0.158,-0.133,-0.110,-0.170,-0.124,-0.115,-0.134,-0.097,-0.106,-0.155,-0.168,-0.038,-0.040,-0.074,-0.011,-0.040,-0.003,-0.019,-0.022,-0.006,-0.049,-0.048,-0.039,-0.011,-0.036,-0.001,-0.018,-0.037,-0.001,0.033,0.061,0.054,0.005,0.040,0.045,0.062,0.016,-0.007,-0.005,0.009,0.044,0.029,-0.016,-0.028,-0.021,-0.036,-0.072,-0.138,-0.060,-0.109,-0.064,-0.142,-0.081,-0.032,-0.077,-0.058,-0.035,-0.039,-0.013,0.007,0.007,-0.052,0.024,0.018,0.067,0.015,-0.002,-0.004,0.038,-0.010,0.056) 


V1=c(-0.083,-0.089,-0.042,-0.071,-0.043,-0.026,0.025,0.059,-0.019,0.107,0.049,0.089,0.094,0.090,0.120,0.169,0.173,0.159,0.141,0.157,0.115,0.128,0.154,0.083,0.038,0.081,0.129,0.120,0.112,0.074,0.022,-0.022,-0.028,-0.048,-0.027,-0.056,-0.027,-0.107,-0.020,-0.063,-0.069,-0.019,-0.055,-0.071,-0.027,-0.034,-0.018,-0.089,-0.068,-0.129,-0.034,-0.002,0.011,-0.009,-0.038,-0.013,-0.006,0.027,0.037,0.022,0.087,0.080,0.119,0.085,0.076,0.072,0.029,0.103,0.019,0.020,0.052,0.024,-0.051,-0.024,-0.008,0.011,-0.019,0.023,-0.011,-0.033,-0.101,-0.157,-0.094,-0.099,-0.106,-0.103,-0.139,-0.093,-0.098,-0.083,-0.118,-0.142,-0.155,-0.095,-0.122,-0.072,-0.034,-0.047,-0.036,0.014,0.035,-0.034,-0.012,0.054,0.030,0.060,0.091,0.013,0.049,0.083,0.070,0.127,0.048,0.118,0.123,0.099,0.097,0.074,0.125,0.051,0.107,0.069,0.040,0.102,0.100,0.119,0.087,0.077,0.044,0.091,0.020,0.010,-0.028,0.026,-0.018,-0.020,0.010,0.034,0.005,0.010,0.028,-0.043,0.025,-0.069,-0.003,0.004,-0.001,0.024,0.032,0.076,0.033,0.071,0.000,0.052,0.034,0.058,0.002,0.070,0.025,0.056,0.051,0.080,0.051,0.101,0.009,0.052,0.079,0.035,0.051,0.049,0.064,0.004,0.011,0.005,0.031,-0.021,-0.024,-0.048,-0.011,-0.072,-0.034,-0.020,-0.052,-0.069,-0.088,-0.093,-0.084,-0.143,-0.103,-0.110,-0.124,-0.175,-0.083,-0.117,-0.090,-0.090,-0.040,-0.068,-0.082,-0.082,-0.061,-0.013,-0.029,-0.032,-0.046,-0.031,-0.048,-0.028,-0.034,-0.012,0.006,-0.062,-0.043,0.010,0.036,0.050,0.030,0.084,0.027,0.074,0.082,0.087,0.079,0.031,0.003,0.001,0.038,0.002,-0.038,0.003,0.023,-0.011,0.013,0.003,-0.046,-0.021,-0.050,-0.063,-0.068,-0.085,-0.051,-0.052,-0.065,0.014,-0.016,-0.082,-0.026,-0.032,0.019,-0.026,0.036,-0.005,0.092,0.070,0.045,0.074,0.091,0.122,-0.007,0.094,0.064,0.087,0.063,0.083,0.109,0.062,0.096,0.036,-0.019,0.075,0.052,0.025,0.031,0.078,0.044,-0.018,-0.040,-0.039,-0.140,-0.037,-0.095,-0.056,-0.044,-0.039,-0.086,-0.062,-0.085,-0.023,-0.103,-0.035,-0.067,-0.096,-0.097,-0.060,0.003,-0.051,0.014,-0.002,0.054,0.045,0.073,0.080,0.096,0.104,0.126,0.144,0.136,0.132,0.160,0.155,0.136,0.080,0.144,0.087,0.093,0.103,0.151,0.165,0.146,0.159,0.156,0.002,0.023,-0.019,0.078,0.031,0.038,0.019,0.094,0.018,0.028,0.064,-0.052,-0.034,0.000,-0.074,-0.076,-0.028,-0.048,-0.025,-0.095,-0.098,-0.045,-0.016,-0.030,-0.036,-0.012,0.023,0.038,0.042,0.039,0.073,0.066,0.027,0.016,0.093,0.129,0.138,0.121,0.077,0.046,0.067,0.068,0.023,0.062,0.038,-0.007,0.055,0.006,-0.015,0.008,0.064,0.012,0.004,-0.055,0.018,0.042)

U2=c(0.022,0.005,-0.022,0.025,-0.014,-0.020,-0.001,-0.021,-0.008,-0.006,-0.056,0.050,-0.068,0.018,-0.106,-0.053,-0.084,-0.082,-0.061,-0.041,-0.057,-0.123,-0.060,-0.029,-0.084,-0.004,0.030,-0.021,-0.036,-0.016,0.006,0.088,0.088,0.079,0.063,0.097,0.020,-0.048,0.046,0.057,0.065,0.042,0.022,0.016,0.041,0.109,0.024,-0.010,-0.084,-0.002,0.004,-0.033,-0.025,-0.020,-0.061,-0.060,-0.043,-0.027,-0.054,-0.054,-0.040,-0.077,-0.043,-0.014,0.030,-0.051,0.001,-0.029,0.008,-0.023,0.015,0.002,-0.001,0.029,0.048,0.081,-0.022,0.040,0.018,0.131,0.059,0.055,0.043,0.027,0.091,0.104,0.101,0.084,0.048,0.057,0.044,0.083,0.063,0.083,0.079,0.042,-0.021,0.017,0.005,0.001,-0.033,0.010,-0.028,-0.035,-0.012,-0.034,-0.055,-0.009,0.001,-0.084,-0.047,-0.020,-0.046,-0.042,-0.058,-0.071,0.013,-0.045,-0.070,0.000,-0.067,-0.090,0.012,-0.013,-0.013,-0.009,-0.063,-0.047,-0.030,0.046,0.026,0.019,0.007,-0.056,-0.062,0.009,-0.019,-0.005,0.003,0.022,-0.006,-0.019,0.020,0.025,0.040,-0.032,0.015,0.019,-0.014,-0.031,-0.047,0.010,-0.058,-0.079,-0.052,-0.044,0.012,-0.039,-0.007,-0.068,-0.095,-0.053,-0.066,-0.056,-0.033,-0.006,0.001,0.010,0.004,0.011,0.013,0.029,-0.011,0.007,0.023,0.087,0.054,0.040,0.013,-0.006,0.076,0.086,0.103,0.121,0.070,0.074,0.067,0.045,0.088,0.041,0.075,0.039,0.043,0.016,0.065,0.056,0.047,-0.002,-0.001,-0.009,-0.029,0.018,0.041,0.002,-0.022,0.003,0.008,0.031,0.003,-0.031,-0.015,0.014,-0.057,-0.043,-0.045,-0.067,-0.040,-0.013,-0.111,-0.067,-0.055,-0.004,-0.070,-0.019,0.009,0.009,0.032,-0.021,0.023,0.123,-0.032,0.040,0.012,0.042,0.038,0.037,-0.007,0.003,0.011,0.090,0.039,0.083,0.023,0.056,0.030,0.042,0.030,-0.046,-0.034,-0.021,-0.076,-0.017,-0.071,-0.053,-0.014,-0.060,-0.038,-0.076,-0.011,-0.005,-0.051,-0.043,-0.032,-0.014,-0.038,-0.081,-0.021,-0.035,0.014,-0.001,0.001,0.003,-0.029,-0.031,0.000,0.048,-0.036,0.034,0.054,0.001,0.046,0.006,0.039,0.015,0.012,0.034,0.022,0.015,0.033,0.037,0.012,0.057,0.001,-0.014,0.012,-0.007,-0.022,-0.002,-0.008,0.043,-0.041,-0.057,-0.006,-0.079,-0.070,-0.038,-0.040,-0.073,-0.045,-0.101,-0.092,-0.046,-0.047,-0.023,-0.028,-0.019,-0.086,-0.047,-0.038,-0.068,-0.017,0.037,-0.010,-0.016,0.010,-0.005,-0.031,0.004,-0.034,0.005,0.006,-0.015,0.017,-0.043,-0.007,-0.009,0.013,0.026,-0.036,0.011,0.047,-0.025,-0.023,0.043,-0.020,-0.003,-0.043,0.000,-0.018,-0.075,-0.045,-0.063,-0.043,-0.055,0.007,-0.063,-0.085,-0.031,0.005,-0.067,-0.059,-0.059,-0.029,-0.014,-0.040,-0.072,-0.018,0.039,-0.006,-0.001,-0.015,0.038,0.038,-0.009,0.026,0.017,0.056)

V2=c(-0.014,0.001,0.004,-0.002,0.022,0.019,0.023,-0.023,0.030,-0.085,-0.007,-0.027,0.100,0.058,0.108,0.055,0.132,0.115,0.084,0.046,0.102,0.121,0.036,0.019,0.066,0.049,-0.011,0.020,0.023,0.011,0.041,0.009,-0.009,-0.023,-0.036,0.031,0.012,0.026,-0.011,0.009,-0.027,-0.033,-0.054,-0.004,-0.040,-0.048,-0.009,0.023,-0.028,0.022,0.090,0.060,0.040,0.003,-0.011,0.030,0.107,0.025,0.084,0.036,0.074,0.065,0.078,0.011,0.058,0.092,0.083,0.080,0.039,0.000,-0.027,0.035,0.011,0.004,0.023,-0.033,-0.060,-0.049,-0.101,-0.033,-0.105,-0.042,-0.088,-0.086,-0.093,-0.085,-0.028,-0.046,-0.045,-0.052,-0.009,-0.066,-0.073,-0.067,0.011,-0.057,-0.087,-0.066,-0.103,-0.075,0.003,-0.021,0.010,-0.013,0.021,0.020,0.084,0.028,0.127,0.050,0.104,0.097,0.075,0.021,0.057,0.095,0.080,0.077,0.086,0.110,0.054,0.016,0.105,0.065,0.046,0.047,0.072,0.058,0.092,0.063,0.033,0.087,0.036,0.049,0.093,0.008,0.064,0.068,0.040,0.049,0.035,0.042,0.045,0.021,0.056,0.007,0.026,0.067,0.046,0.088,0.084,0.070,0.037,0.079,0.065,0.074,0.077,0.023,0.094,0.061,0.096,0.068,0.067,0.091,0.061,0.069,0.090,0.046,0.057,0.011,-0.018,0.005,0.001,-0.023,-0.087,0.010,0.023,-0.025,-0.040,-0.059,-0.063,-0.075,-0.136,-0.078,-0.102,-0.128,-0.116,-0.091,-0.136,-0.083,-0.115,-0.063,-0.055,-0.080,-0.093,-0.099,-0.053,-0.042,-0.011,-0.034,-0.027,-0.042,-0.022,-0.008,-0.033,-0.039,-0.036,0.019,0.036,-0.002,0.000,-0.021,0.060,0.030,0.073,0.080,0.061,0.046,0.062,0.010,0.034,0.103,0.107,0.016,0.080,0.067,0.007,0.060,0.021,-0.026,0.008,0.051,0.030,0.001,-0.036,-0.047,0.000,0.006,0.006,0.013,0.009,0.019,0.009,-0.086,-0.020,0.018,0.039,0.014,0.011,0.052,0.031,0.095,0.047,0.065,0.114,0.086,0.102,0.037,0.039,0.060,0.024,0.091,0.058,0.065,0.060,0.045,0.031,0.062,0.047,0.043,0.057,0.032,0.057,0.051,0.019,0.056,0.024,-0.003,0.023,-0.013,-0.032,-0.022,-0.064,-0.021,-0.050,-0.063,-0.090,-0.082,-0.076,-0.077,-0.042,-0.060,-0.010,-0.060,-0.069,-0.028,-0.071,-0.046,-0.020,-0.074,0.080,0.071,0.065,0.079,0.065,0.039,0.061,0.154,0.072,0.067,0.133,0.106,0.080,0.047,0.053,0.110,0.080,0.122,0.075,0.052,0.034,0.081,0.118,0.079,0.101,0.053,0.082,0.036,0.033,0.026,0.002,-0.002,0.020,0.087,0.021,0.034,0.003,-0.021,0.016,-0.009,-0.045,-0.043,-0.020,0.027,0.008,-0.006,0.043,0.045,0.014,0.053,0.083,0.113,0.091,0.028,0.060,0.040,0.019,0.114,0.126,0.090,0.046,0.089,0.029,0.030,0.010,0.045,0.040,0.072,-0.033,-0.008,0.014,-0.018,-0.004,-0.037,0.015,-0.021,-0.015)


bindistances=c(1.37,1.62,1.87,2.12,2.37,2.62,2.87,3.12,3.37,3.62,3.87,4.12,4.37,4.62,4.87,5.12,5.37,5.62,5.87,6.12,6.37,6.62,6.87,7.12,7.37,7.62,7.87,8.12)

Тогда как представление токов:

   AA=14 
    x11()
par(mfrow=c(4,1))
         plotSticks(x=seq(from=(1),
                          to=(377),
                          by=(1)),
                    u=U1,
                    v=V1,
                    yscale=ysc,xlab='',ylab='',xaxt='n',yaxt='n',col=(rep('black',384)))
         axis(side=1)
plotSticks(x=seq(from=(1),
                          to=(377),
                          by=(1)),
                    u=U2,
                    v=V2,
                    yscale=ysc,xlab='',ylab='',xaxt='n',yaxt='n',col=(rep('black',384)))

plotSticks(x=seq(from=(1),
                          to=(377),
                          by=(1)),
                    u=U2,
                    v=V2,
                    yscale=ysc,xlab='',ylab='',xaxt='n',yaxt='n',col=(rep('black',384)))
plotSticks(x=seq(from=(1),
                          to=(377),
                          by=(1)),
                    u=U2,
                    v=V2,
                    yscale=ysc,xlab='',ylab='',xaxt='n',yaxt='n',col=(rep('black',384)))

Чтобы упростить представление, три последних графика основаны на одних и тех же данных.