1.利用声卡播放音频信号
function sine_gen N = 1000; % 每一次产生的长度 fs = 16e3; % 采样率16kHz fc = 400; % 正弦波频率 dac = SoundCardDAC(fs); %构造dac对象 onCleanup(@dac.delete); %注册善后函数 while 1 t = (0:N-1)'/fs; % 时间t y = sin(2*pi*fc*t); % 产生的信号 dac.tx(y); end end
classdef SoundCardDAC < handle % SoundCardDAC 利用声卡将数字信号转为模拟波形 % 利用obj = SoundCardDAC(fs)构造对象,其中fs为采样率,单位Hz % 类方法: (1) tx(signal) 将信号signal添加到声卡缓存并进行播放,该函数可产生连续的信号输出 % (2) tx_once(signal) 直接播放信号signal,该函数仅产生一段突发的信号 % (3) delete 释放占用的资源,可在主函数中利用onCleanup调用 properties (SetAccess = private, GetAccess = private) m_ao = 0; m_fs = 44100; m_state = 0; % 0: uninitialize, 1: ready, 2: runing end methods function obj = SoundCardDAC(fs) obj.m_fs = fs; obj.m_ao = analogoutput('winsound'); addchannel(obj.m_ao,1); set (obj.m_ao, 'SampleRate', obj.m_fs); obj.m_state = 1; fprintf(1,'Info: Create soundCardDAC object, fs=%d. ', fs); end function tx(obj, signal) sample_th1 = obj.m_fs * 0.4; % 保证声卡中至少有0.4s左右长度的数据 sample_th2 = obj.m_fs * 0.6; % 通常声卡缓冲区数据也不用太长 signal = reshape(signal, length(signal), 1); % 转为列向量 if obj.m_state == 0 % not allowed error('Error: SoundCard does not be initialized. '); return; end putdata(obj.m_ao, signal); sample_av = get(obj.m_ao, 'SamplesAvailable'); if obj.m_state == 1 % ready if sample_av > sample_th1 obj.m_state = 2; start(obj.m_ao); fprintf(1,'Info: Starting DAC... '); end elseif obj.m_state == 2 % running if sample_av < sample_th1 % 缓冲区数据量小于阈值,预示有可能程序实时性不够 fprintf(1,'Warning: Program efficiency may be too low. '); elseif sample_av > sample_th2 % 数据太快,让程序停顿一会儿 time_pause = (sample_av-sample_th2)/obj.m_fs; pause(time_pause); end else error('Error: Unknown error occured. '); end end function tx_once(obj, signal) signal = reshape(signal, length(signal), 1); % 转为列向量 if obj.m_state == 0 % not allowed error('Error: SoundCard does not be initialized. '); elseif obj.m_state == 1 % ready putdata(obj.m_ao, signal); sample_av = get(obj.m_ao, 'SamplesAvailable'); start(obj.m_ao); time_pause = sample_av/obj.m_fs + 0.2; pause(time_pause); stop(obj.m_ao); elseif obj.m_state == 2 error('Error: Do not call tx() and tx_once() simultaneously. '); else error('Error: Unknown error occured. '); end end function delete(obj) if obj.m_ao ~= 0 stop(obj.m_ao); delete(obj.m_ao); obj.m_ao = 0; obj.m_state = 0; fprintf(1,'Info: Destory soundCardDAC object. '); end end end end
2.蒙特卡洛模拟求阴影面积
syms x0; y0=int(sqrt(-x0^2+2*x0)*2,0,0.5)+int(sqrt(1-x0^2)*2,0.5,1); tic; N = 1e8; % 投掷次数 s_squre = 1*sqrt(3); hit = 0; % 落在阴影面积内的概率 for k = 1:N x = rand() ; % x坐标均匀分布于[0,1] y = (rand() *2 -1)*sqrt(3)/2; % y坐标均匀分布于[-sqrt(3)/2,sqrt(3)/2] if x*x + y*y < 1 && (x-1)*(x-1) + y*y < 1 hit = hit + 1; % 若(x,y)落在阴影面积内 end end prob = hit/N; % 求解落在阴影面积中的概率 s_circle = s_squre* prob % 求阴影面积 toc;