机器人语音交互之ros集成科大讯飞中文语音库，实现语音控制机器人小车

• 1 背景和资料
• 2 正文
• • 2.1 下载科大讯飞语音库
  • 2.2 robot_voice 之语音控制机器人小车移动样例
  • 3 总结

    1 背景和资料

    从本文开始，我们将用两篇文章学习机器人语音交互。本文作为第一篇，将在ros上集成科大讯飞的中文语音库，实现语音控制机器人小车运动。至于语音识别和语音合成的原理，本文并不深究，读者可以自行搜索相关的文章介绍。这里提醒，本文的测试环境是ubuntu20.04 + ros noetic。

    本文参考资料如下：

    （1）《ROS机器人开发实践》胡春旭 第8章

    （2）讯飞语音识别和唤醒开发示例

    （3）讯飞语音听写 Linux SDK 文档

    （4）ROS高效入门第二章 – 基本概念和常用命令学习，基于小乌龟样例

    （5）ROS高效进阶第三章 – 以差速轮式机器人为例，使用Gazebo构建机器人仿真平台

    2 正文

    2.1 下载科大讯飞语音库

    （1）首先登陆讯飞开放平台：讯飞开放平台 ，注册后，点击控制台进入。

    （2）然后创建应用并下载linux sdk，更具体的操作可以参考：讯飞语音识别和唤醒开发示例

    （3）最后得到自己专属的sdk，如我本人的：Linux_iat1227_tts_online1227_bb839ccf.zip，其中 bb839ccf 是专属bb839ccf。下面我们将把这套 sdk 集成到 robot_voice 样例中，这里不对这个 zip 包内容进行展开讲解。

    2.2 robot_voice 之语音控制机器人小车移动样例

    （1）robot_voice 样例，我们将实现两个应用，第一个就是本文的语音控制机器人小车移动，拓扑图如下：

    voice_detector：负责语音识别，将语音转换为文字，并作为 client，通过 human_chatter 服务，发给 robot_controller 。

    robot_controller：作为 human_chatter 服务 server，接收 voice_detector 发来的文字化的指令，并生成对应的语音播报文字和控车命令。前者通过 str2voice 服务，发给 voice_creator，后者通过 /cmd_vel topic，发给 mbot_gazebo。

    voice_creator：作为 str2voice 服务server，接收 robot_controller 发来的语音播报文字，合成语音文件并播放。

    mbot_gazebo：作为机器人小车，接收 /cmd_vel topic，并调整运动状态。

    补充：关于ros的服务机制，可以参考本人ROS高效入门博客第二章的2.6节: ROS高效入门第二章 – 基本概念和常用命令学习，基于小乌龟样例

    （2）安装环境：

    unzip Linux_iat1227_tts_online1227_bb839ccf.zip
    sudo cp libs/x64/libmsc.so /usr/lib/
    sudo apt update
    sudo apt install sox
    sudo apt install libsox-fmt-all
    

    SoX, 全称 Sound eXchange，被官方称为 “the Swiss Army knife of audio manipulation”。

    它是一个强大的用于转换和处理声音文件的库。因其操作简单且功能强大，广泛应用在音频数据的处理和分析中。

    除此之外，本人在编译讯飞样例时，遇到了：

    linuxrec.c:12:10: fatal error: alsa/asoundlib.h: No such file or directory
    

    解决方式是：

    sudo apt-get install libasound2-dev
    

    ALSA，全称Advanced Linux Sound Architecture (ALSA) 库，用于处理音频设备。

    （3）创建 robot_voice 及相关文件

    cd ~/catkin_ws/src
    catkin_create_pkg robot_voice roscpp rospy std_msgs geometry_msgs message_generation message_runtime
    cd robot_voice 
    mkdir srv launch
    touch srv/StringToVoice.srv launch/voice_control_robot.launch
    touch src/voice_detector.cpp src/robot_controller.cpp src/voice_creator.cpp
    mkdir ifly_voice include/ifly_voice
    

    请将 Linux_iat1227_tts_online1227_bb839ccf.zip 中的相关文件，分别移入相关目录，供编译使用，如下图：

    （4）voice_detector.cpp

    #include 
    #include 
    #include 
    #include 
    #include 
    #include 
    #include "ifly_voice/qisr.h"
    #include "ifly_voice/qtts.h"
    #include "ifly_voice/msp_cmn.h"
    #include "ifly_voice/formats.h"
    #include "ifly_voice/msp_errors.h"
    #include "ifly_voice/speech_recognizer.h"
    #include 
    #include 
    class Helper {
    public:
      static void SignalHandler(int signal) {
          ROS_INFO("\nCaught signal %d. Exiting gracefully...\n", signal);
          exit(0);
      }
    };
    class VoiceDetector {
    public:
      VoiceDetector() {
        ROS_INFO("VoiceDetector Constructor");
      }
      ~VoiceDetector() {
        ROS_INFO("VoiceDetector Destructor");
      }
      int Init() {
        int ret = MSP_SUCCESS;
        ret = MSPLogin(NULL, NULL, login_params_.c_str());
        if (MSP_SUCCESS != ret)	{
          ROS_ERROR("MSPLogin failed , Error code %d", ret);
          MSPLogout(); // Logout...
          return -1;
        }    
        ROS_INFO("VoiceDetector MSP Login for update, waiting for seconds...");
        return 0;
      }
      static void JoinTxt(const char *result, char is_last) {
        if (result) {
          std::string slice_txt = result;
          VoiceDetector::voice_txt_ += slice_txt;
        }
        if (is_last) {
          printf("voice txt : %s\n", VoiceDetector::voice_txt_.c_str());
        }
      }
      static void InitSpeech() {
        VoiceDetector::voice_txt_ = "";
        printf("clear cache, start Listening...\n");
      }
      static void EndSpeech(int reason) {
        if (reason == END_REASON_VAD_DETECT) {
          printf("\nSpeaking done \n");
        } else {
          printf("\nRecognizer error %d\n", reason);
        }
      }
      int SpeechOnce() {
        int ret;
        int i = 0;
        struct speech_rec iat;
        struct speech_rec_notifier recnotifier = {
          JoinTxt,
          InitSpeech,
          EndSpeech
        };
        ret = sr_init(&iat, session_begin_params_.c_str(), SR_MIC, &recnotifier);
        if (ret) {
          ROS_ERROR("speech recognizer init failed");
          return -1;
        }
        ret = sr_start_listening(&iat);
        if (ret) {
          printf("start listen failed %d\n", ret);
        }
        /* demo 15 seconds recording */
        sleep(10);
        ret = sr_stop_listening(&iat);
        if (ret) {
          printf("stop listening failed %d\n", ret);
        }
        sr_uninit(&iat);
        return 0;
      }
      static std::string get_voice_txt_() {
        return voice_txt_;
      }
    private:
    	const std::string login_params_ = "appid = bb839ccf, work_dir = .";
    	const std::string session_begin_params_ =
    		"sub = iat, domain = iat, language = zh_cn, "
    		"accent = mandarin, sample_rate = 16000, "
    		"result_type = plain, result_encoding = utf8";
      const uint32_t	BufferSize = 4096;
      uint64_t g_buffersize = BufferSize;
      static std::string voice_txt_;
    };
    std::string VoiceDetector::voice_txt_ = "";
    int main(int argc, char* argv[]) {
      int ret = 0;
      ros::init(argc, argv, "voice_detector");
      ros::NodeHandle nh;
      // 创建 human_chatter 服务client
      ros::ServiceClient client_ = nh.serviceClient("human_chatter");
      if (signal(SIGINT, Helper::SignalHandler) == SIG_ERR) {
        return -1;
      }
      VoiceDetector vd;
      ret = vd.Init();
      if (ret < 0) {
        return -1;
      }
      
      while (1) {
      	// 一次聆听
        ret = vd.SpeechOnce();
        if (ret < 0) {
          return -1;
        }
    	// 获取当次聆听得到的内容
        std::string voice_txt = VoiceDetector::get_voice_txt_();
        if (voice_txt == "") {
          printf("voice_txt is empty, do not send chatter\n");
          continue;
        } else if (voice_txt.find("结束") != std::string::npos) {
          break;
        }
    	// 通过 human_chatter 服务，发给robot_controller，处理成功后，进入下一轮
        robot_voice::StringToVoice::Request req;
        robot_voice::StringToVoice::Response resp;
        req.data = voice_txt;
        bool ok = client_.call(req, resp);
        if (ok) {
          printf("send human_chatter service success: %s\n", req.data.c_str());
        } else {
          printf("failed to send human_chatter service\n");
        }
      }
      ros::spin();
      return 0;
    }
    

    （5）robot_controller.cpp

    #include 
    #include 
    #include 
    #include 
    #include 
    #include 
    #include 
    #include 
    #include 
    class RobotController {
    public:
      RobotController() {
        ROS_INFO("RobotController Constructor");
      }
      ~RobotController() {
        ROS_INFO("RobotController Destructor");
      }
      int Init(ros::NodeHandle& nh) {
        cmd_pub_ = nh.advertise("/cmd_vel", 1000);
        client_ = nh.serviceClient("str2voice");
        return 0;
      }
      void ToDownstream(const std::string& answer_txt, float linear_x, float angular_z) {
      	// 通过 str2voice 服务和 /cmd_vel topic向下游 voice_creator 和 mbot_gazebo 发送
        robot_voice::StringToVoice::Request req;
        robot_voice::StringToVoice::Response resp;
        req.data = answer_txt;
        bool ok = client_.call(req, resp);
        if (ok) {
          printf("send str2voice service success: %s, and pub cmd_vel\n", req.data.c_str());
           geometry_msgs::Twist msg;
           msg.linear.x = linear_x;
           msg.angular.z = angular_z;
           cmd_pub_.publish(msg);
        } else {
          ROS_ERROR("failed to send str2voice service");
        }
      }
      bool ChatterCallbback(robot_voice::StringToVoice::Request &req, robot_voice::StringToVoice::Response &resp) {
        printf("i received: %s\n", req.data.c_str());
        std::string voice_txt = req.data;
    	// 根据指令关键字，发送对应的语音播包文字和 cmd_vel 命令
        if (voice_txt.find("前") != std::string::npos) {
          ToDownstream("小车请向前跑", 0.3, 0);
        } else if (voice_txt.find("后") != std::string::npos) {
          ToDownstream("小车请向后倒", -0.3, 0);
        } else if (voice_txt.find("左") != std::string::npos) {
          ToDownstream("小车请向左转", 0, 0.3);
        } else if (voice_txt.find("右") != std::string::npos) {
          ToDownstream("小车请向右转", 0, -0.3);
        } else if (voice_txt.find("转") != std::string::npos) {
          ToDownstream("小车请打转", 0.3, -0.3);
        }
        resp.success = true;
        return resp.success;
      }
      void Start(ros::NodeHandle& nh) {
      	// 申明 human_chatter 服务，ChatterCallbback是回调函数
        chatter_server_ = nh.advertiseService("human_chatter", &RobotController::ChatterCallbback, this);
      }
    private:
      ros::ServiceServer chatter_server_;
      ros::Publisher cmd_pub_;
      ros::ServiceClient client_;
    };
    int main(int argc, char* argv[]) {
      int ret = 0;
      ros::init(argc, argv, "voice_controller");
      ros::NodeHandle nh;
      RobotController rc;
      rc.Init(nh);
      printf("this is a voice controller app for robot, you can say: 向前, 向后, 向左, 向右, 转圈, 结束\n");
      rc.Start(nh);
      ros::spin();
      return 0;
    }
    

    （6）voice_creator.cpp

    #include 
    #include 
    #include 
    #include 
    #include 
    #include 
    #include "ifly_voice/qisr.h"
    #include "ifly_voice/qtts.h"
    #include "ifly_voice/msp_cmn.h"
    #include "ifly_voice/formats.h"
    #include "ifly_voice/msp_errors.h"
    #include "ifly_voice/speech_recognizer.h"
    #include 
    class Helper {
    public:
      static void SignalHandler(int signal) {
          ROS_INFO("\nCaught signal %d. Exiting gracefully...\n", signal);
          exit(0);
      }
    };
    class VoiceCreator {
    public:
      VoiceCreator() {
        ROS_INFO("VoiceCreator Constructor");
      }
      ~VoiceCreator() {
        ROS_INFO("VoiceCreator Destructor ");
      }
      int Init() {
        int ret = MSP_SUCCESS;
        ret = MSPLogin(NULL, NULL, login_params_.c_str());
        if (MSP_SUCCESS != ret)	{
          ROS_ERROR("MSPLogin failed , Error code %d", ret);
          MSPLogout(); // Logout...
          return -1;
        }    
        ROS_INFO("VoiceCreator MSP Login for update, waiting for seconds...");
        return 0;
      }
      int ProcessTxt(std::string& txt) {
        int          ret          = -1;
        FILE*        fp           = NULL;
        const char*  sessionID    = NULL;
        unsigned int audio_len    = 0;
        int          synth_status = MSP_TTS_FLAG_STILL_HAVE_DATA;
        WavePcmHdr_t wav_hdr      = {
          { 'R', 'I', 'F', 'F' },
          0,
          {'W', 'A', 'V', 'E'},
          {'f', 'm', 't', ' '},
          16,
          1,
          1,
          16000,
          32000,
          2,
          16,
          {'d', 'a', 't', 'a'},
          0  
        };
        const char* src_text = txt.c_str();
        const char* des_path = filename_.c_str();
        const char* params = session_begin_params_.c_str();
        if (NULL == src_text || NULL == des_path) {
          ROS_ERROR("params is error!");
          return ret;
        }
        fp = fopen(des_path, "wb");
        if (NULL == fp) {
          ROS_ERROR("open %s error", des_path);
          return ret;
        }
        /* 开始合成 */
        sessionID = QTTSSessionBegin(params, &ret);
        if (MSP_SUCCESS != ret) {
          ROS_ERROR("QTTSSessionBegin failed, error code: %d", ret);
          fclose(fp);
          return ret;
        }
        ret = QTTSTextPut(sessionID, src_text, (unsigned int)strlen(src_text), NULL);
        if (MSP_SUCCESS != ret) {
          ROS_ERROR("QTTSTextPut failed, error code: %d",ret);
          QTTSSessionEnd(sessionID, "TextPutError");
          fclose(fp);
          return ret;
        }
        
        printf("正在合成 ...\n");
        fwrite(&wav_hdr, sizeof(wav_hdr) ,1, fp); //添加wav音频头，使用采样率为16000
        while (1)  {
          /* 获取合成音频 */
          const void* data = QTTSAudioGet(sessionID, &audio_len, &synth_status, &ret);
    		  if (MSP_SUCCESS != ret) {
            break;
          }
          if (NULL != data) {
            fwrite(data, audio_len, 1, fp);
            wav_hdr.data_size += audio_len; //计算data_size大小
          }
          if (MSP_TTS_FLAG_DATA_END == synth_status) {
            break;
          }
          printf(">");
          usleep(150*1000); //防止频繁占用CPU
        }
        printf("\n");
        if (MSP_SUCCESS != ret) {
          ROS_ERROR("QTTSAudioGet failed, error code: %d",ret);
          QTTSSessionEnd(sessionID, "AudioGetError");
          fclose(fp);
          return ret;
        }
        /* 修正wav文件头数据的大小 */
        wav_hdr.size_8 += wav_hdr.data_size + (sizeof(wav_hdr) - 8);
        
        /* 将修正过的数据写回文件头部,音频文件为wav格式 */
        fseek(fp, 4, 0);
        fwrite(&wav_hdr.size_8,sizeof(wav_hdr.size_8), 1, fp); //写入size_8的值
        fseek(fp, 40, 0); //将文件指针偏移到存储data_size值的位置
        fwrite(&wav_hdr.data_size,sizeof(wav_hdr.data_size), 1, fp); //写入data_size的值
        fclose(fp);
        fp = NULL;
        /* 合成完毕 */
        ret = QTTSSessionEnd(sessionID, "Normal");
        if (MSP_SUCCESS != ret) {
          ROS_ERROR("QTTSSessionEnd failed, error code: %d", ret);
          return ret;
        }
    	// 播放语音文件
        fp = popen(play_cmd_.c_str(),"r");
        if (fp == NULL) {
          ROS_ERROR("play /tmp/tts_sample.wav failed");
          return -1;
        }
        sleep(1);
        pclose(fp);
        return 0;
      }
      bool Speeking(robot_voice::StringToVoice::Request &req, robot_voice::StringToVoice::Response &resp) {
        int ret = -1;
        ret = ProcessTxt(req.data);
        if (MSP_SUCCESS != ret) {
          ROS_ERROR("AnswerVoice failed, error code: %d", ret);
          resp.success = false;
          return false;
        } else {
          resp.success = true;
        }
        return resp.success;
      }
      void Start(ros::NodeHandle& nh) {
      	// 申明 str2voice 服务
        server_ = nh.advertiseService("str2voice", &VoiceCreator::Speeking, this);
      }
    private:
      	ros::ServiceServer server_;
    	const std::string login_params_ = "appid = bb839ccf, work_dir = .";
    	const std::string session_begin_params_ = 
        "voice_name = xiaoyan, text_encoding = utf8, "
        "sample_rate = 16000, speed = 50, volume = 50, "
        "pitch = 50, rdn = 2";
        //合成的语音文件名称
    	const std::string filename_ = "/tmp/tts_sample.wav"; 
    	//语音播放命令
      	const std::string play_cmd_ = "play /tmp/tts_sample.wav";
      /* wav音频头部格式 */
      typedef struct WavePcmHdr {
        char            riff[4];                // = "RIFF"
        int		size_8;                 // = FileSize - 8
        char            wave[4];                // = "WAVE"
        char            fmt[4];                 // = "fmt "
        int		fmt_size;		// = 下一个结构体的大小 : 16
        short int       format_tag;             // = PCM : 1
        short int       channels;               // = 通道数 : 1
        int		samples_per_sec;        // = 采样率 : 8000 | 6000 | 11025 | 16000
        int		avg_bytes_per_sec;      // = 每秒字节数 : samples_per_sec * bits_per_sample / 8
        short int       block_align;            // = 每采样点字节数 : wBitsPerSample / 8
        short int       bits_per_sample;        // = 量化比特数: 8 | 16
        char            data[4];                // = "data";
        int		data_size;              // = 纯数据长度 : FileSize - 44 
      } WavePcmHdr_t;
    };
    int main(int argc, char ** argv) {
      int ret = 0;
      ros::init(argc, argv, "voice_creator");
      ros::NodeHandle nh;
      if (signal(SIGINT, Helper::SignalHandler) == SIG_ERR) {
        return -1;
      }
      VoiceCreator vc;
      ret = vc.Init();
      if (ret < 0) {
        return -1;
      }
      vc.Start(nh);
      ros::spin();
      return 0;
    }
    

    （6）StringToVoice.srv , voice_control_robot.launch 和 CMakeLists.txt

    StringToVoice.srv

    string data
    ---
    bool success
    

    voice_control_robot.launch

    CMakeLists.txt

    cmake_minimum_required(VERSION 3.0.2)
    project(robot_voice)
    add_compile_options(-std=c++11)
    find_package(catkin REQUIRED COMPONENTS
      roscpp
      rospy
      std_msgs
      geometry_msgs
      message_generation
    )
    add_service_files(
      FILES
      StringToVoice.srv
    )
    generate_messages(
      DEPENDENCIES
      std_msgs
    )
    catkin_package(
      CATKIN_DEPENDS message_runtime roscpp rospy std_msgs
    )
    include_directories(
      include
      ${catkin_INCLUDE_DIRS}
    )
    add_executable(voice_detector 
      src/voice_detector.cpp
      ifly_voice/speech_recognizer.c
      ifly_voice/linuxrec.c)
    add_executable(robot_controller src/robot_controller.cpp)
    add_executable(voice_creator src/voice_creator.cpp)
    add_dependencies(voice_detector ${PROJECT_NAME}_generate_messages_cpp)
    target_link_libraries(voice_detector
      ${catkin_LIBRARIES} 
      libmsc.so -ldl -lpthread -lm -lrt -lasound
    )
    add_dependencies(robot_controller ${PROJECT_NAME}_generate_messages_cpp)
    target_link_libraries(robot_controller
      ${catkin_LIBRARIES} 
    )
    add_dependencies(voice_creator ${PROJECT_NAME}_generate_messages_cpp)
    target_link_libraries(voice_creator
      ${catkin_LIBRARIES} 
      libmsc.so -ldl -pthread
    )
    

    （7）编译并运行（运行时请注意电脑网络通畅！）

    cd ~/catkin_ws/
    catkin_make -DCATKIN_WHITELIST_PACKAGES="robot_voice;mbot_gazebo"
    source devel/setup.bash
    roslaunch mbot_gazebo view_mbot_gazebo.launch
    // 再开一个窗口
    source devel/setup.bash
    roslaunch robot_voice voice_control_robot.launch
    

    语音控制机器人

    （8）在开发调试过程中，出现了如下编译报错：

    internal compiler error: Illegal instruction
    

    不得已，更新了gcc版本，问题解决

    sudo apt-get install gcc-10
    sudo apt-get install g++-10
    cd /usr/bin
    sudo rm gcc g++
    sudo ln -s gcc-10 gcc
    sudo ln -s g++-10 g++
    

    3 总结

    本文的样例托管在本人的github上：robot_voice，mbot_gazebo