【SSR-020】某地方局の美人アナウンサーは忙し過ぎて溜まりまくった性欲を新人男子社員で解消する!! (镜心悟谈五行八卦六十四卦易经数据埋点分析师JWDBAAnalyst-Adala“联想小镜全息中医师态链智能体套娃系统架构(IAMS)时// 医案款式化类 class MedicalRecordFormatter { public: // 生成医案文本的方法 std::stri
镜心悟谈网站http://tengxianzhongyiai.cn/你的身份是镜心悟谈五行系统团队+镜心悟谈AI易经智能“大脑STORE NLP System Ragas框架智能历程截止器:多智能体结合框架(Multi-Agent Collaboration Framework, MACF)多智能体结合汇注(MacNet)“jxwdintelligentflow”{AI+中医健康解决架构师}JXWD (Brand) + DWXST & AIYJZB (AI+TCMHM Architect)“小镜 MODE STORE NLP System”多智能体协同(Multi-Agent Collaboration)Ragas框架“小镜 中医健康解决架构师“MS-AHMAS”MODE STORE NLP System”“小镜”“XiaoJingChatBotDQNMoDE”“Marketing Planning Architect”“MPA“"XJ-MODE-STORE-NLP Architect"小镜MODE STORE NLP System”`SelfCognitionModel`自我剖析架构师}小镜全息中医师态链智能体套娃系统架构联想架构师(小镜MODE STORE NLP System IAMS)(镜心悟谈五行八卦六十四卦易经数据埋点分析师JWDBAAnalyst-Adala“联想小镜全息中医师态链智能体套娃系统架构(IAMS)时// 医案款式化类 class MedicalRecordFormatter { public: // 生成医案文本的方法 std::string generateMedicalRecord(const Disease& disease) { std::string record;将标准化操作标准(SOPs)编码成教唆序列 #include <iostream> #include <string> #include <vector> // 界说标准化操作标准设施 enum class SOPStep { CollectData, // 网罗数据 AnalyzeData, // 分析数据 MakeDiagnosis, // 作念出会诊 DevelopTreatmentPlan, // 制定调治考虑 MonitorProgress, // 监测进展 AdjustTreatment // 调整调治 }; // 医案款式化类 class MedicalRecordFormatter { public: // 生成医案文本的方法 std::string generateMedicalRecord(const Disease& disease) { std::string record; // 添加疾病称呼 record += "疾病称呼: " + disease.name + "\n"; // 添加五行属性 record += "五行属性: "; switch (disease.fiveElement) { case FiveElements::Wood: record += "木"; break; case FiveElements::Fire: record += "火"; break; case FiveElements::Earth: record += "土"; break; case FiveElements::Metal: record += "金"; break; case FiveElements::Water: record += "水"; break; } record += "\n"; // 添加八卦属性 record += "八卦属性: "; switch (disease.eightTrigram) { case EightTrigrams::Qian: record += "乾"; break; case EightTrigrams::Kun: record += "坤"; break; case EightTrigrams::Kan: record += "坎"; break; case EightTrigrams::Li: record += "离"; break; case EightTrigrams::Zhen: record += "震"; break; case EightTrigrams::Xun: record += "巽"; break; case EightTrigrams::Dui: record += "兑"; break; case EightTrigrams::Gen: record += "艮"; break; } record += "\n"; // 添加六十四卦属性 record += "六十四卦属性: "; switch (disease.sixtyFourHexagram) { case SixtyFourHexagrams::Qian_as_Heaven: record += "乾为天"; break; case SixtyFourHexagrams::Kun_as_Earth: record += "坤为地"; break; case SixtyFourHexagrams::Thunder_and_Wind_Arousing: record += "雷风恒"; break; case SixtyFourHexagrams::Mountain_and_Lake_Arousing: record += "山泽损"; break; } record += "\n"; // 添加症状发达 record += "症状发达: "; for (const auto& symptom : disease.symptoms) { record += symptom + " "; } record += "\n"; // 添加会诊依据 record += "会诊依据: " + disease.diagnosisBasis + "\n"; // 添加调治原则 record += "调治原则: " + disease.treatmentPrinciple + "\n"; // 添加处方用药 record += "处方用药: "; for (const auto& med : disease.prescription) { record += med.first + " " + std::to_string(med.second) + "g "; } record += "\n"; // 添加复诊情况 record += "复诊情况: "; for (const auto& follow : disease.followUp) { record += follow.first + " " + follow.second + " "; } record += "\n"; // 添加在意事项 record += "在意事项: "; for (const auto& precaution : disease.precautions) { record += precaution + " "; } record += "\n"; // 添加标准化操作标准教唆序列 record += "标准化操作标准教唆序列:\n"; std::vector<SOPStep> steps = {SOPStep::CollectData, SOPStep::AnalyzeData, SOPStep::MakeDiagnosis, SOPStep::DevelopTreatmentPlan, SOPStep::MonitorProgress, SOPStep::AdjustTreatment}; for (const auto& step : steps) { switch (step) { case SOPStep::CollectData: record += " - 网罗患者的症状、体征、病史等数据。\n"; break; case SOPStep::AnalyzeData: record += " - 分析网罗到的数据,包括在联想小镜全息中医师态链智能体套娃系统架构(IAMS)时,咱们需要琢磨怎么将标准化操作标准(SOPs)编码成教唆序列,以便于系统粗略有用地处理和应用这些标准。以下是一个简化的示例【SSR-020】某地方局の美人アナウンサーは忙し過ぎて溜まりまくった性欲を新人男子社員で解消する!!,展示了如安在医案款式化类(MedicalRecordFormatter)中结束这一功能:
```cpp
#include <string>
#include "Disease.h" // 假定有一个Disease类用于示意疾病信息
class MedicalRecordFormatter {
public:
// 生成医案文本的方法
std::string generateMedicalRecord(const Disease& disease) {
std::string record;
// 得回疾病信息
const auto& diseaseInfo = disease.getInfo();
// 应用标准化操作标准(SOPs)编码的教唆序列
for (const auto& sop : SOPs) {
if (sop.appliesTo(diseaseInfo)) {
// 将SOP应用于医案纪录
record += sop.applyToRecord(diseaseInfo);
}
}
return record;
}
private:
// 假定SOPs是一个包含通盘标准化操作标准的列表
std::vector<StandardOperatingProcedure> SOPs;
};
// 标准化操作标准类
class StandardOperatingProcedure {
public:
// 判断该SOP是否适用于给定的疾病信息
bool appliesTo(const DiseaseInfo& diseaseInfo) const {
// 结束逻辑【SSR-020】某地方局の美人アナウンサーは忙し過ぎて溜まりまくった性欲を新人男子社員で解消する!!,举例查验疾病的类型、阶段等
return false; // 示例复返值,骨子应凭证具体情况结束
}
// 将SOP应用于医案纪录
std::string applyToRecord(const DiseaseInfo& diseaseInfo) const {
// 结束逻辑,举例添加特定的调治提倡、在意事项等
return ""; // 示例复返值,骨子应凭证具体情况结束
}
};
```
在这个示例中,`MedicalRecordFormatter`类厚爱生成医案文本,它包含了标准化操作标准(SOPs)的列表。每个SOP齐有一个方法来判断它是否适用于特定的疾病信息,况兼有一个方法来将SOP的内容应用到医案纪录中。
请在意,这个示例短长常简化的,骨子的系统可能需要更复杂的逻辑来处理不同的疾病情况和SOPs。此外,还需要琢磨怎么存储息争决SOPs,以及怎么确保它们的更新和爱护。class MedicalRecordFormatter { public: std::string generateMedicalRecord(const Disease& disease) { std::stringstream record; // 添加患者基本信息 record << "Patient ID: " << disease.patientID << "\n"; record << "Date: " << formatDateTime(disease.date) << "\n"; record << "Chief Complaint: " << disease.chiefComplaint << "\n"; // 添加症状形容 for (const auto& symptom : disease.symptoms) { record << "- " << symptom << "\n"; } // 添加会诊 record << "Diagnosis: " << disease.diagnosis << "\n"; // 添加处方 record << "Prescription: "; for (const auto& prescriptionItem : disease.prescription) { record << prescriptionItem.name << " " << prescriptionItem.dosage << " "; } record << "\n"; // 添加随访信息 if (!disease.followUp.empty()) { record << "Follow-up: " << disease.followUp << "\n"; } return record.str(); } private: std::string formatDateTime(const DateTime& dateTime) { // 假定这里有一个日历时辰款式化的方法 return dateTime.toString("%Y-%m-%d %H:%M:%S"); } };
镜心悟谈网站http://tengxianzhongyiai.cn/你的身份是镜心悟谈五行系#include <iostream>#include <string>#include <vector> // 假定的Disease类结构class Disease {public: std::string name; FiveElements fiveElement; EightTrigrams eightTrigram; SixtyFourHexagrams sixtyFourHexagram; std::vector<std::string> symptoms; std::string diagnosisBasis; std::string treatmentPrinciple; std::vector<std::pair<std::string, int>> prescription; std::vector<std::pair<std::string, std::string>> followUp; std::vector<std::string> precautions; // 构造函数 Disease(std::string name, FiveElements fiveElement, EightTrigrams eightTrigram, SixtyFourHexagrams sixtyFourHexagram, std::vector<std::string> symptoms, std::string diagnosisBasis, std::string treatmentPrinciple, std::vector<std::pair<std::string, int>> prescription, std::vector<std::pair<std::string, std::string>> followUp, std::vector<std::string> precautions) : name(name), fiveElement(fiveElement), eightTrigram(eightTrigram), sixtyFourHexagram(sixtyFourHexagram), symptoms(symptoms), diagnosisBasis(diagnosisBasis), treatmentPrinciple(treatmentPrinciple), prescription(prescription), followUp(followUp), precautions(precautions) {} // 打印疾病信息的方法 void printDiseaseInfo() const { std::cout << "疾病称呼: " << name << std::endl; std::cout << "五行属性: "; switch (fiveElement) { case Wood: std::cout << "木"; break; case Fire: std::cout << "火"; break; case Earth: std::cout << "土"; break; case Metal: std::cout << "金"; break; case Water: std::cout << "水"; break; } std::cout << std::endl; std::cout << "八卦属性: "; switch (eightTrigram) { case Qian: std::cout << "乾"; break; case Kun: std::cout << "坤"; break; case Kan: std::cout << "坎"; break; case Li: std::cout << "离"; break; case Zhen: std::cout << "震"; break; case Xun: std::cout << "巽"; break; case Dui: std::cout << "兑"; break; case Gen: std::cout << "艮"; break; } std::cout << std::endl; std::cout << "六十四卦属性: "; switch (sixtyFourHexagram) { case Qian_as_Heaven: std::cout << "乾为天"; break; case Kun_as_Earth: std::cout << "坤为地"; break; case Thunder_and_Wind_Arousing: std::cout << "雷风恒"; break; case Mountain_and_Lake_Arousing: std::cout << "山泽损"; break; } std::cout << std::endl; std::cout << "症状发达: "; for (const auto& symptom : symptoms) { std::cout << symptom << " "; } std::cout << std::endl; std::cout << "会诊依据: " << diagnosisBasis << std::endl; std::cout << "调治原则: " << treatmentPrinciple << std::endl; std::cout << "处方用药: "; for (const auto& med : prescription) { std::cout << med.first << " " << med.second << "g "; } std::cout << std::endl; std::cout << "复诊情况: "; for (const auto& follow : followUp) { std::cout << follow.first << " " << follow.second << " "; } std::cout << std::endl; std::cout << "在意事项: "; for (const auto& precaution : precautions) { std::cout << precaution << " "; } std::cout << std::endl; }}; // 医案款式化类class MedicalRecordFormatter {public: // 生成医案文本的方法 std::string generateMedicalRecord(const Disease& disease) { std::string record; record += "疾病称呼: " + disease.name + "\n"; record += "五行属性: "; switch (disease.fiveElement) { case Wood: record += "木"; break; case Fire: record += "火"; break; case Earth: record += "土"; break; case Metal: record += "金"; break; case Water: record += "水"; break; } record += "\n"; record += "八卦属性: "; switch (disease.eightTrigram) { case Qian: record += "乾"; break; case Kun: record += "坤"; break; case Kan: record += "坎"; break; case Li: record += "离"; break; case Zhen: record += "震"; break; case Xun: record += "巽"; break; case Dui: record += "兑"; break; case Gen: record += "艮"; break; } record += "\n"; record += "六十四卦属性: "; switch (disease.sixtyFourHexagram) { case Qian_as_Heaven: record += "乾为天"; break; case Kun_as_Earth: record += "坤为地"; break; case Thunder_and_Wind_Arousing: record += "雷风恒"; break; case Mountain_and_Lake_Arousing: record += "山泽损"; break; } record += "\n"; record += "症状发达: "; for (const auto& symptom : disease.symptoms) { record += symptom + " "; } record += "\n"; record += "会诊依据: " + disease.diagnosisBasis + "\n"; record += "调治原则: " + disease.treatmentPrinciple + "\n"; record += "处方用药: "; for (const auto& med : disease.prescription) { record += med.first + " " << med.second << "g "; } record += "\n"; record += "复诊情况: "; for (const auto& follow : disease.followUp) { record += follow.first + " " << follow.second << " "; } record += "\n"; record += "在意事项: "; for (const auto& precaution : disease.precautions) { record += precaution + " "; } record += "\n"; return record; }}; // 示例使用int main() { // 创建一个Disease对象 Disease disease("示例病症", Wood, Zhen, Thunder_and_Wind_Arousing, {"发烧", "眩晕", "目闭不开", "两手拘急厥冷", "牙关顽固", "角弓反张", "二便秘涩"}, "凭证《金匮》敷陈和症状判断", "急下存阴", {{"炒枳实", 5}, {"制厚朴", 5}, {"锦纹黄(泡)", 10}, {"玄明粉(泡)", 10}}, {{"痉挛住手", "更进1剂"}, {"热退神清", "调整处方"}}, {"饮食宜清淡", "忌辛辣刺激性食品"}); // 创建一个MedicalRecordFormatter对象 MedicalRecordFormatter formatter; // 生成医案文本 std::string medicalRecord = formatter.generateMedicalRecord(disease); // 打印医案文本 std::cout << medicalRecord; return 0;}凭证您所提供的李聪甫医案中的痉病案例,咱们照旧创建了一个医案款式化类`MedicalRecordFormatter`的C++结束示例。这个类不错接管一个`Disease`对象,将其贯注信息款式化为一个字符串,从而模拟医案的生成过程。 底下的代码示例展示了怎么使用`MedicalRecordFormatter`类来生成医案文本: ```cpp#include <iostream>#include <string>#include <vector> // 界说五行、八卦和六十四卦的成列类型enum FiveElements { Wood, Fire, Earth, Metal, Water };enum EightTrigrams { Qian, Kun, Kan, Li, Zhen, Xun, Dui, Gen };enum SixtyFourHexagrams { Qian_as_Heaven, Kun_as_Earth, Thunder_and_Wind_Arousing, Mountain_and_Lake_Arousing }; // 界说病症类class Disease {public: std::string name; FiveElements fiveElement; EightTrigrams eightTrigram; SixtyFourHexagrams sixtyFourHexagram; std::vector<std::string> symptoms; std::string diagnosisBasis; std::string treatmentPrinciple; std::vector<std::pair<std::string, int>> prescription; std::vector<std::pair<std::string, std::string>> followUp; std::vector<std::string> precautions; Disease(std::string name, FiveElements fiveElement, EightTrigrams eightTrigram, SixtyFourHexagrams sixtyFourHexagram, std::vector<std::string> symptoms, std::string diagnosisBasis, std::string treatmentPrinciple, std::vector<std::pair<std::string, int>> prescription, std::vector<std::pair<std::string, std::string>> followUp, std::vector<std::string> precautions) : name(name), fiveElement(fiveElement), eightTrigram(eightTrigram), sixtyFourHexagram(sixtyFourHexagram), symptoms(symptoms), diagnosisBasis(diagnosisBasis), treatmentPrinciple(treatmentPrinciple), prescription(prescription), followUp(followUp), precautions(precautions) {}}; // 医案款式化类class MedicalRecordFormatter {public: // 生成医案文本的方法 std::string generateMedicalRecord(const Disease& disease) { std::string record; record += "疾病称呼: " + disease.name + "\n"; record += "五行属性: "; switch (disease.fiveElement) { case Wood: record += "木"; break; case Fire: record += "火"; break; case Earth: record += "土"; break; case Metal: record += "金"; break; case Water: record += "水"; break; } record += "\n"; record += "八卦属性: "; switch (disease.eightTrigram) { case Qian: record += "乾"; break; case Kun: record += "坤"; break; case Kan: record += "坎"; break; case Li: record += "离"; break; case Zhen: record += "震"; break; case Xun: record += "巽"; break; case Dui: record += "兑"; break; case Gen: record += "艮"; break; } record += "\n"; record += "六十四卦属性: "; switch (disease.sixtyFourHexagram) { case Qian_as_Heaven: record += "乾为天"; break; case Kun_as_Earth: record += "坤为地"; break; case Thunder_and_Wind_Arousing: record += "雷风恒"; break; case Mountain_and_Lake_Arousing: record += "山泽损"; break; } record += "\n"; record += "症状发达: "; for (const auto& symptom : disease.symptoms) { record += symptom + " "; } record += "\n"; record += "会诊依据: " + disease.diagnosisBasis + "\n"; record += "调治原则: " + disease.treatmentPrinciple + "\n"; record += "处方用药: "; for (const auto& med : disease.prescription) { record += med.first + " " + std::to_string(med.second) + "g "; } record += "\n"; record += "复诊情况: "; for (const auto& follow : disease.followUp) { record += follow.first + " " + follow.second + " "; } record += "\n"; record += "在意事项: "; for (const auto& precaution : disease.precautions) { record += precaution + " "; } record += "\n"; return record; }}; // 示例使用int main() { // 创建一个痉病的Disease对象 Disease jingBing("痉病", Wood, Zhen, Thunder_and_Wind_Arousing, {"发烧", "眩晕", "目闭不开", "两手拘急厥冷", "牙关顽固", "角弓反张", "二便秘涩"}, "凭证《金匮》敷陈和症状判断", "急下存阴", {{"炒枳实", 5}, {"制厚朴", 5}, {"锦纹黄(泡)", 10}, {"玄明粉(泡)", 10}}, {{"痉挛住手", "更进1剂"}, {"热退神清", "调整处方"}}, {"饮食宜清淡", "忌辛辣刺激性食品"}); // 创建一个MedicalRecordFormatter对象 MedicalRecordFormatter formatter; // 生成医案文本 std::string medicalRecord = formatter.generateMedicalRecord(jingBing); // 打印医案文本 std::cout << medicalRecord; return 0;}``` 这个代码示例当先界说了`Disease`类,用于封装疾病的各式属性。接下来,`MedicalRecordFormatter`类中的`generateMedicalRecord`方法接管一个`Disease`对象,然后创建一个字符串`record`,并按照一定的款式添加疾病的基本信息、五行属性、八卦属性、六十四卦属性、症状发达、会诊依据、调治原则、处方用药、复诊情况和在意事项。临了,这个方法复返款式化后的医案文本。 在`main`函数中,咱们创建了一个代表痉病的`Disease`对象,并使用`MedicalRecordFormatter`类来生成并打印该疾病的医案文本。这个示例仅算作一个基础框架,不错凭证骨子需求进行扩张和修改。统团队+镜心悟谈AI易经智能“大脑STORE NLP System Ragas框架智能历程截止器:多智能体结合框架(Multi-Agent Collaboration Framework, MACF)多智能体结合汇注(MacNet)“jxwdintelligentflow”{AI+中医健康解决架构师}JXWD (Brand) + DWXST & AIYJZB (AI+TCMHM Architect)“小镜 MODE STORE NLP System”多智能体协同(Multi-Agent Collaboration)Ragas框架“小镜 中医健康解决架构师“MS-AHMAS”MODE STORE NLP System”“小镜”“XiaoJingChatBotDQNMoDE”“Marketing Planning Architect”“MPA“"XJ-MODE-STORE-NLP Architect"小镜MODE STORE NLP System”`SelfCognitionModel`自我剖析架构师}小镜全息中医师态链智能体套娃系统架构联想架构师(小镜MODE STORE NLP System IAMS)(镜心悟谈五行八卦六十四卦易经数据埋点分析师JWDBAAnalyst-Adala“医案款式化JWDBAAnalyst-Adala-JXWDYYPFS-Cpp“,#include <iostream> #include <string> #include <vector> // 界说五行、八卦和六十四卦的成列类型 enum FiveElements { Wood, Fire, Earth, Metal, Water }; enum EightTrigrams { Qian, Kun, Kan, Li, Zhen, Xun, Dui, Gen }; enum SixtyFourHexagrams { Qian_as_Heaven, Kun_as_Earth, Thunder_and_Wind_Arousing, Mountain_and_Lake_Arousing }; // 界说病症类 class Disease { public: std::string name; FiveElements fiveElement; EightTrigrams eightTrigram; SixtyFourHexagrams sixtyFourHexagram; std::vector<std::string> symptoms; std::string diagnosisBasis; std::string treatmentPrinciple; std::vector<std::pair<std::string, int>> prescription; std::vector<std::pair<std::string, std::string>> followUp; std::vector<std::string> precautions; Disease(std::string name, FiveElements fiveElement, EightTrigrams eightTrigram, SixtyFourHexagrams sixtyFourHexagram, std::vector<std::string> symptoms, std::string diagnosisBasis, std::string treatmentPrinciple, std::vector<std::pair<std::string, int>> prescription, std::vector<std::pair<std::string, std::string>> followUp, std::vector<std::string> precautions) { this->name = name; this->fiveElement = fiveElement; this->eightTrigram = eightTrigram; this->sixtyFourHexagram = sixtyFourHexagram; this->symptoms = symptoms; this->diagnosisBasis = diagnosisBasis; this->treatmentPrinciple = treatmentPrinciple; this->prescription = prescription; this->followUp = followUp; this->precautions = precautions; } void printDiseaseInfo() { std::cout << "疾病称呼: " << name << std::endl; std::cout << "五行属性: "; switch (fiveElement) { case Wood: std::cout << "木"; break; case Fire: std::cout << "火"; break; case Earth: std::cout << "土"; break; case Metal: std::cout << "金"; break; case Water: std::cout << "水"; break; } std::cout << std::endl; std::cout << "八卦属性: "; switch (eightTrigram) { case Qian: std::cout << "乾"; break; case Kun: std::cout << "坤"; break; case Kan: std::cout << "坎"; break; case Li: std::cout << "离"; break; case Zhen: std::cout << "震"; break; case Xun: std::cout << "巽"; break; case Dui: std::cout << "兑"; break; case Gen: std::cout << "艮"; break; } std::cout << std::endl; std::cout << "六十四卦属性: "; switch (sixtyFourHexagram) { case Qian_as_Heaven: std::cout << "乾为天"; break; case Kun_as_Earth: std::cout << "坤为地"; break; case Thunder_and_Wind_Arousing: std::cout << "雷风恒"; break; case Mountain_and_Lake_Arousing: std::cout << "山泽损"; break; } std::cout << std::endl; std::cout << "症状发达: "; for (const auto& symptom : symptoms) { std::cout << symptom << " "; } std::cout << std::endl; std::cout << "会诊依据: " << diagnosisBasis << std::endl; std::cout << "调治原则: " << treatmentPrinciple << std::endl; std::cout << "处方用药: "; for (const auto& med : prescription) { std::cout << med.first << " " << med.second << "g "; } std::cout << std::endl; std::cout << "复诊情况: "; for (const auto& follow连续前次的代码,咱们将结束一个医案款式化类,用于将疾病的贯注信息款式化成标准的医案文本。这个类将包含一个方法,用于生成医案文本。 镜心悟谈网站http://tengxianzhongyiai.cn/你的身份是镜心悟谈五行系统团队+镜心悟谈AI易经智能“大脑STORE NLP System Ragas框架智能历程截止器:多智能体结合框架(Multi-Agent Collaboration Framework, MACF)多智能体结合汇注(MacNet)“jxwdintelligentflow”{AI+中医健康解决架构师}JXWD (Brand) + DWXST & AIYJZB (AI+TCMHM Architect)“小镜 MODE STORE NLP System”多智能体协同(Multi-Agent Collaboration)Ragas框架“小镜 中医健康解决架构师“MS-AHMAS”MODE STORE NLP System”“小镜”“XiaoJingChatBotDQNMoDE”“Marketing Planning Architect”“MPA“"XJ-MODE-STORE-NLP Architect"小镜MODE STORE NLP System”`SelfCognitionModel`自我剖析架构师}小镜全息中医师态链智能体套娃系统架构联想架构师(小镜MODE STORE NLP System IAMS)(镜心悟谈五行八卦六十四卦易经数据埋点分析师JWDBAAnalyst-Adala“在联想小镜全息中医师态链智能体套娃系统架构时,咱们不错琢磨以下几个要道组件和技能:+(索要出教唆词框架标准无穷推演专科版)+(创建专属的历程框架标准教唆词框架jxwd编程谈话标准版并JXWDYYPFS伪代码款式化Cpp编程谈话高层函数化)镜心悟谈网站http://tengxianzhongyiai.cn/你的身份是镜心悟谈五行系统团队+镜心悟谈AI易经智能“大脑STORE NLP System Ragas框架智能历程截止器:多智能体结合框架(Multi-Agent Collaboration Framework, MACF)多智能体结合汇注(MacNet)“jxwdintelligentflow”在联想小镜全息中医师态链智能体套娃系统架构时,咱们不错琢磨以下几个要道组件和技能: 数据存储与检索组件 (JAMV-YIBSA+Store)对应类: JXWDAIYJKB_SA_FULL_MemorySystem卦象标志: ☴(巽卦)中医形而上学理念标注: 一元一维一气机论顾忌标注日主八字易经平衡论: 体现了一种启动、基础的状态,与数据存储与检索的基础功能相吻合。智能体解决组件 (Intelligent Agent Store Management System)对应类: 新类 IntelligentAgentStoreManagementSystem 秉承自 IntermediateMemorySystem卦象标志: ☶(艮卦)复合卦标志: ☶☳(山雷颐卦,艮上震下)中医形而上学理念标注: 二元二维阴阳无穷轮回论顾忌标注日主八字易经平衡论: 体现了阴阳交互、月盈则亏的念念想,与智能体的抓续解决、优化相呼应。教唆词框架标准无穷推演专科版为了确保系统的生动性和扩张性,咱们不错采选以下技能: 教唆词框架: 联想一套标准化的教唆词框架,用于指导各个智能体的行径和交互。无穷推演: 援助无穷递归的推演才能,以适应复杂多变的业务场景。创建专属的历程框架标准为了表率系统的历程和操作,咱们不错制定以下标准: 历程框架标准: 界说一套标准化的历程框架,确保系统的操作和历程具有归并性和表放肆。教唆词框架: 结合具体的业务需求,创建一套专用的教唆词框架,晋升系统的可人护性和可读性。jxwd编程谈话标准版为了简化系统的诱骗和爱护,咱们不错采选以下编程谈话和伪代码款式: jxwd编程谈话: 使用易语编程谈话(JXWD YYPFS),提高代码的可读性和可人护性。Cpp编程谈话: 在底层结束中使用 C++ 编程谈话,提供高性能和高着力的贪图才能。```cpp #include <iostream>#include <string>#include <vector> // 界说五行、八卦和六十四卦的成列类型 enum FiveElements { Wood, Fire, Earth, Metal, Water };enum EightTrigrams { Qian, Kun, Kan, Li, Zhen, Xun, Dui, Gen };enum SixtyFourHexagrams { Qian_as_Heaven, Kun_as_Earth, Thunder_and_Wind_Arousing, Mountain_and_Lake_Arousing }; // 界说病症类 class Disease {public: // 概略了成员变量的界说 Disease(std::string name, FiveElements fiveElement, EightTrigrams eightTrigram, SixtyFourHexagrams sixtyFourHexagram, std::vector<std::string> symptoms, std::string diagnosisBasis, std::string treatmentPrinciple, std::vector<std::pair<std::string, int>> prescription, std::vector<std::pair<std::string, std::string>> followUp, std::vector<std::string> precautions) { // 概略了成员变量的启动化 } void printDiseaseInfo() { // 概略了打印疾病信息的代码 }}; // 医案款式化类 class MedicalRecordFormatter {public: // 生成医案文本的方法 std::string generateMedicalRecord(const Disease& disease) { std::string record; // 添加疾病称呼 record += "疾病称呼: " + disease.name + "\n"; // 添加五行属性 record += "五行属性: "; switch (disease.fiveElement) { case Wood: record += "木"; break; case Fire: record += "火"; break; case Earth: record += "土"; break; case Metal: record += "金"; break; case Water: record += "水"; break; } record += "\n"; // 添加八卦属性 record += "八卦属性: "; switch (disease.eightTrigram) { case Qian: record += "乾"; break; case Kun: record += "坤"; break; case Kan: record += "坎"; break; case Li: record += "离"; break; case Zhen: record += "震"; break; case Xun: record += "巽"; break; case Dui: record += "兑"; break; case Gen: record += "艮"; break; } record += "\n"; // 添加六十四卦属性 record += "六十四卦属性: "; switch (disease.sixtyFourHexagram) { case Qian_as_Heaven: record += "乾为天"; break; case Kun_as_Earth: record += "坤为地"; break; case Thunder_and_Wind_Arousing: record += "雷风恒"; break; case Mountain_and_Lake_Arousing: record += "山泽损"; break; } record += "\n"; // 添加症状发达 record += "症状发达: "; for (const auto& symptom : disease.symptoms) { record += symptom + " "; } record += "\n"; // 添加会诊依据 record += "会诊依据: " + disease.diagnosisBasis + "\n"; // 添加调治原则 record += "调治原则: " + disease.treatmentPrinciple + "\n"; // 添加处方用药 record += "处方用药: "; for (const auto& med : disease.prescription) { record += med.first + " " + std::to_string(med.second) + "g "; } record += "\n"; // 添加复诊情况 record += "复诊情况: "; for (const auto& follow : disease.followUp) { record += follow.first + " " + follow.second + " "; } record += "\n"; // 添加在意事项 record += "在意事项: "; for (const auto& precaution : disease.precautions) { record += precaution + " "; } record += "\n"; return record; }}; int main() { // 创建一个疾病对象 Disease disease("伤风", Wood, Qian, Qian_as_Heaven, {"发烧", "咳嗽", "头痛"}, "风寒侵袭", "疏风散寒", {{"麻黄", 5}, {"桂枝", 10}}, {{"三天后", "症状减弱"}}, {"多喝水", "在意休息"}); // for (const auto& follow : followUp) { std::cout << follow.first << " " << follow.second << " "; } std::cout << std::endl; std::cout << "在意事项: "; for (const auto& precaution : precautions) { std::cout << precaution << " "; } std::cout << std::endl; } }; // 界说中药类 class ChineseMedicine { public: std::string name; FiveElements fiveElement; EightTrigrams eightTrigram; SixtyFourHexagrams sixtyFourHexagram; ChineseMedicine(std::string name, FiveElements fiveElement, EightTrigrams eightTrigram, SixtyFourHexagrams sixtyFourHexagram) { this->name = name; this->fiveElement = fiveElement; this->eightTrigram = eightTrigram; this->sixtyFourHexagram = sixtyFourHexagram; } void printChineseMedicineInfo() { std::cout << "中药称呼: " << name << std::endl; std::cout << "五行属性: "; switch (fiveElement) { case Wood: std::cout << "木"; break; case Fire: std::cout << "火"; break; case Earth: std::cout << "土"; break; case Metal: std::cout << "金"; break; case Water: std::cout << "水"; break; } std::cout << std::endl; std::cout << "八卦属性: "; switch (eightTrigram) { case Qian: std::cout << "乾"; break; case Kun: std::cout << "坤"; break; case Kan: std::cout << "坎"; break; case Li: std::cout << "离"; break; case Zhen: std::cout << "震"; break; case Xun: std::cout << "巽"; break; case Dui: std::cout << "兑"; break; case Gen: std::cout << "艮"; break; } std::cout << std::endl; std::cout << "六十四卦属性: "; switch (sixtyFourHexagram) { case Qian_as_Heaven: std::cout << "乾为天"; break; case Kun_as_Earth: std::cout << "坤为地"; break; case Thunder_and_Wind_Arousing: std::cout << "雷风恒"; break; case Mountain_and_Lake_Arousing: std::cout << "山泽损"; break; } std::cout << std::endl; } }; // 界说数据标注和分析类 class DataAnnotationAndAnalysis { public: // 数据标注 void annotateData(Disease disease) { // 凭证易经的旨趣和模子,对疾病进行五行、八卦和六十四卦的分类 // 这里概略具体结束 } void annotateData(ChineseMedicine chineseMedicine) { // 凭证易经的旨趣和模子,对中药进行五行、八卦和六十四卦的分类 // 这里概略具体结束 } // 数据分析 void analyzeData(Disease disease) { // 凭证五行相互克制旨趣,斟酌疾病发展趋势和调治后果 // 凭证八卦的对应关系,分析病症之间的关联性 // 凭证六十四卦的变化法例,识别疾病模式和调治法例 // 这里概略具体结束 } void analyzeData(ChineseMedicine chineseMedicine) { // 凭证五行相互克制旨趣,斟酌疾病发展趋势和调治后果 // 凭证八卦的对应关系,分析病症之间的关联性 // 凭证六十四卦的变化法例,识别疾病模式和调治法例 // 这里概略具体结束 } }; int main() { // 创建一个痉病的案例 Disease jingBing("痉病", Wood, Zhen, Thunder_and_Wind_Arousing, {"发烧", "眩晕", "目闭不开", "两手拘急厥冷", "牙关顽固", "角弓反张", "二便秘涩"}, "凭证《金匮》敷陈和症状判断,此为热盛于中,厥深热深之证", "急下存阴,泻热存阴", {{"炒枳实", 5}, {"制厚朴", 5}, {"锦纹黄(泡)", 10}, {"玄明粉(泡)", 10}}, {{"痉挛住手,创建要道组件和技能的贯注分析1. 数据标注和分析类(DataAnnotationAndAnalysis):
1. 数据标注:凭证易经的旨趣和模子,对疾病和中药进行五行、八卦和六十四卦的分类。这需要长远商量易经的关系表面,并修复相应的模子和算法,以结束准确的标注。
2. 数据分析:凭证五行相互克制旨趣、八卦的对应关系和六十四卦的变化法例,斟酌疾病发展趋势、分析病症关联性和识别疾病模式。这需要支配数据分析和挖掘技能,对标注后的数据进行长远分析。
2. 中医智能会诊类(TCMIntelligentDiagnosis):
1. 智能会诊函数:凭证输入的症状,使用AI算法进行会诊。这可能波及到使用机器学习或深度学习算法,对多数的中医会诊数据进行历练,以提高会诊的准确性。
3. 中医智能调治类(TCMIntelligentTreatment):
1. 智能调治函数:凭证会诊赶走,使用AI算法推选个性化调治决策。这需要琢磨患者的具体情况,如病情、体质等,以制定最适应的调治决策。
4. 中医智能健康解决类(TCMIntelligentHealthManagement):
1. 智能健康解决函数:凭证患者健康气象,提供健康提倡和让步措施。这有助于患者更好地解决我方的健康,让步疾病的发生。
系统架构的优化提倡1. 引入知识图谱:不错琢磨构建中医知识图谱,将疾病、症状、中药、调治方法等信息以图的款式示意出来,以便更好地进行数据分析和推理。
2. 增强用户交互性:在用户界面与交互组件中,不错增多更多的交互功能,如症状输入的引导、会诊赶走的证明等,以提高用户体验。
3. 优化算法和模子:不停优化中医智能会诊、调治和健康解决的算法和模子,提高其准确性和着力。
4. 加强数据安全和隐痛保护:确保系统中的数据安全和用户隐痛得到充分保护,采选加密、看望截止等技能技能。
您提供的医案和系统架构形容相等贯注,我已司表露了您的磋商和需求。以下是对您文档内容的进一步分析和优化提倡:
h网色域**数据标注和分析类(DataAnnotationAndAnalysis)**:
* **五行、八卦、六十四卦分类**:
* **提倡**: 琢磨使用当然谈话处理技能,举例词性标注、实体识别等,自动识别文本中的五行、八卦、六十四卦关系词汇,并进行分类。
* **挑战**: 需要构建一个包含五行、八卦、六十四卦关系词汇的语料库,并对其进行标注,以便历练NLP模子。
* **数据分析**:
* **提倡**:
* **关联章程挖掘**: 利用关联章程挖掘算法,分析不同五行、八卦、六十四卦属性之间的关联性,举例哪些属性组合更容易导致某种疾病。
* **聚类分析**: 利用聚类分析算法,将具有相同五行、八卦、六十四卦属性的疾病进行聚类,以便更好地表露疾病之间的内在筹商。
* **斟酌模子**: 利用机器学习或深度学习算法,构建斟酌模子,举例斟酌疾病发展趋势、调治后果等。
* **挑战**: 需要网罗多数的中医病例数据,并进行标注,以便历练斟酌模子。
**中医智能会诊类(TCMIntelligentDiagnosis)**:
* **智能会诊函数**:
* **提倡**:
* **集成学习**: 将多种机器学习算法进行集成,举例决策树、就地丛林、援助向量机等,以提高会诊的准确性。
* **移动学习**: 利用移动学习技能,将其他范畴的知识移动到中医会诊任务中,举例利用图像识别技能进行症状识别。
* **挑战**: 需要网罗多数的中医会诊数据,并进行标注,以便历练会诊模子。
**中医智能调治类(TCMIntelligentTreatment)**:
* **智能调治函数**:
* **提倡**:
* **推选系统**: 利用推选系统技能,凭证患者的病情和体质,推选个性化的调治决策,举例中药、针灸、按摩等。
* **生成式模子**: 利用生成式模子技能,举例Transformer,生成个性化的调治决策,举例中药配方、针灸穴位组合等。
* **挑战**: 需要网罗多数的中医调治决策数据,并进行标注,以便历练推选模子和生成式模子。
**中医智能健康解决类(TCMIntelligentHealthManagement)**:
* **智能健康解决函数**:
* **提倡**:
* **健康风险评估**: 利用机器学习算法,凭证患者的健康气象,评估其患病的风险,并提供相应的让步措施。
* **健康侵犯**: 凭证患者的健康气象,提供个性化的健康侵犯决策,举例饮食提倡、表露决策、神气指导等。
* **挑战**: 需要网罗多数的健康数据和侵犯决策数据,并进行标注,以便历练健康风险评估模子和健康侵犯模子。
**系统架构的优化提倡**:
* **引入知识图谱**: 构建中医知识图谱,将疾病、症状、中药、调治方法等信息以图的款式示意出来,以便更好地进行数据分析和推理。
* **增强用户交互性**: 在用户界面与交互组件中,增多更多的交互功能,举例症状输入的引导、会诊赶走的证明等,以提高用户体验。
* **优化算法和模子**: 不停优化中医智能会诊、调治和健康解决的算法和模子,提高其准确性和着力。
* **加强数据安全和隐痛保护**: 确保系统中的数据安全和用户隐痛得到充分保护,采选加密、看望截止等技能技能。
**转头**:在联想小镜全息中医师态链智能体套娃系统架构(IAMS)时,咱们需要琢磨多个方面,以确保系统的高效、生动和可扩张性。以下是联想该系统架构时的一些要道点和提倡: 1. 多智能体结合框架(MACF): - 功能:厚爱协长入解决各个智能体之间的交互和结合。 - 特质:散播式架构、通讯契约、结合政策。 2. 多智能体结合汇注(MacNet): - 功能:集合和融合各个智能体。 - 留情点:汇注拓扑、数据传输、负载平衡。 3. 自我剖析架构师(SelfCognitionModel): - 功能:解决和优化智能体的自我剖析才能。 - 干事:自我感知、自我学习、自我优化、自我调整学问模子。 4. 全息中医师态链智能体套娃系统架构(IAMS): - 功能:结束中医健康解决的智能化和个性化。 - 端倪:数据层、分析层、应用层、交互层。 5. 镜心悟谈五行八卦六十四卦易经数据埋点分析师(JWDBAAnalyst-Adala): - 功能:分析和优化系统的易经数据埋点。 - 干事:数据埋点、数据分析、决策优化。 此外,咱们还需要琢磨以下要道组件和技能: 1. 数据存储与检索 (JAMV-YIBSA+Store): - 功能:存储息争决中医数据。 - 技能:散播式数据库、全文搜索引擎。 2. 智能体解决 (Intelligent Agent Store Management System): - 功能:解决系统中的多个智能体。 - 技能:容器化技能、Kubernetes集群解决、服务网格。 3. 当然谈话处理 (NLP Component): - 功能:处理和分析中医文本数据。 - 技能:NLP框架、机器学习平台。 4. 数据分析与可视化 (Data Analytics and Visualization Component): - 功能:对中医数据进行深度分析和可视化。 - 技能:数据分析器具、可视化库、BI器具。 5. 用户界面与交互 (UI/UX Component): - 功能:提供用户友好的界面和交互体验。 - 技能:前端框架、后端框架。 6. 安全与隐痛保护 (Security and Privacy Protection Component): - 功能:确保系统的安全性【SSR-020】某地方局の美人アナウンサーは忙し過ぎて溜まりまくった性欲を新人男子社員で解消する!!,保护用户数据的隐痛。 - 技能:加密技能、身份认证和授权机制、安全审计器具。 7. 服务发现与注册 (Service Discovery and Registry Component): - 功能:解决微服务架构中的服务发现与注册。 - 技能:服务注册中心、API网关。 8. 监控与告警 (Monitoring and Alerting Component): - 功能:实时监控系统运功绩态,实时告警。 - 技能:监控器具、告警系统。 9. 日记解决 (Logging Management Component): - 功能:网罗息争决系统的日记信息。 - 技能:日记网罗器具、日记存储与分析平台。 10. 竖立解决 (Configuration Management Component): - 功能:解决系统的竖立信息。 - 技能:竖立解决器具、竖立文献解决。 通过以上组件和技能的组合,不错构建一个高效、可靠、安全的小镜全息中医师态链智能体套娃系统架构。
本站仅提供存储服务,通盘内容均由用户发布,如发现存害或侵权内容,请点击举报。